COULTER LH 500 HEMATOLOGY ANALYZER
-
Upload
truongtram -
Category
Documents
-
view
305 -
download
38
Transcript of COULTER LH 500 HEMATOLOGY ANALYZER
PN 624762CA.1 (June 2012) Professional Development
COULTER® LH 500 HEMATOLOGY ANALYZER
TRAINING MODULES
This document is not intended to replace the information in your instrument Instructions for Use manual (IFU). Information in the Instructions for Use manual supersedes information in any other
manual.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
ii of iv
WARNINGS AND PRECAUTIONS READ ALL PRODUCT MANUALS AND CONSULT WITH BECKMAN COULTER-TRAINED PERSONNEL BEFORE ATTEMPTING TO OPERATE INSTRUMENT. DO NOT ATTEMPT TO PERFORM ANY PROCEDURE BEFORE CAREFULLY READING ALL INSTRUCTIONS. ALWAYS FOLLOW PRODUCT LABELING AND MANUFACTURER’S RECOMMENDATIONS. IF IN DOUBT AS TO HOW TO PROCEED IN ANY SITUATION, CONTACT YOUR BECKMAN COULTER REPRESENTATIVE. HAZARDS AND OPERATIONAL PRECAUTIONS AND LIMITATIONS WARNINGS, CAUTIONS and IMPORTANTS alert you as follows:
WARNING – Can cause injury. CAUTION – Can cause damage to the instrument. IMPORTANT Can cause misleading results.
BECKMAN COULTER, INC. URGES ITS CUSTOMERS TO COMPLY WITH ALL NATIONAL HEALTH AND SAFETY STANDARDS SUCH AS THE USE OF BARRIER PROTECTION. THIS MAY INCLUDE, BUT IT IS NOT LIMITED TO, PROTECTIVE EYEWEAR, GLOVES AND SUITABLE LABORATORY ATTIRE WHEN OPERATING OR MAINTAINING THIS OR ANY OTHER AUTOMATED LABORATORY ANALYZER.
WARNING Risk of operator injury if:
• All doors, covers and panels are not closed and secured in place prior to and during instrument operation. • The integrity of safety interlocks and sensors is compromised. • Instrument alarms and error messages are not acknowledged and acted upon. • You contact moving parts. • You mishandle broken parts. • Doors, covers and panels are not opened, closed, removed and/or replaced with care. • Improper tools are used for troubleshooting.
To avoid injury:
• Keep doors, covers and panels closed and secured in place while the instrument is in use.
• Take full advantage of the safety features of the instrument. Do not defeat safety interlocks and sensors.
• Acknowledge and act upon instrument alarms and error messages.
• Keep away from moving parts.
• Report any broken parts to your Beckman Coulter Representative.
• Open/remove and close/replace doors, covers and panels with care.
• Use the proper tools for troubleshooting.
CAUTION System integrity might be compromised and operational failures might occur if:
• This equipment is used in a manner other than specified. Operate the instrument as instructed in the Product Manuals and the on-line Help system.
• You introduce software that is not authorized by Beckman Coulter into your computer. Only operate your system’s computer with software authorized by Beckman Coulter.
• You install software that is not an original copyrighted version. Only use software that is an original copyrighted version to prevent virus contamination.
IMPORTANT
If you purchased this product from anyone other than Beckman Coulter or an authorized Beckman Coulter distributor, and, if it is not presently under a Beckman Coulter service maintenance agreement, Beckman Coulter cannot guarantee that the product is fitted with the most current mandatory engineering revisions or that you will receive the most current information bulletins concerning the product. If you purchased this product from a third party and would like further information concerning this topic, call your Beckman Coulter Representative.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
iii of iv
TRADEMARKS 5C Series Control, Beckman Coulter,Coulter, Coulter Counter, Lin-C, Lyse S, S-Cal, Z Series are trademarks of Beckman Coulter, Inc.; Beckman Coulter, the BECKMAN COULTER logo, COULTER, Coulter Counter, 5C Series Control, Lin -C, LYSE S, S-CAL and Z Series are registered in the USPO. All other trademarks, service marks, products or services are trademarks or registered trademarks of their respective holders. Copyright © Beckman Coulter, Inc. 2012 All Rights Reserved
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
iv of iv
REVISION STATUS
Revision A Initial Issue (October 2003) Software Release 1A
Revision B (April 2005)
Software Release 2A
Revision C (November 2007)
Software Release 2A2
Revision CA (September 2009)
Software Release 2A4
Revision CA.1 (June 2012)
Software Release 2A4
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
1 of 6
COURSE GUIDE
This document is not intended to replace the information in your instrument Instructions for Use manual (IFU). Information in the Instructions for Use manual supersedes information in any other
manual.
Implementation
Setup
Troubleshooting
Basics
@BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
2 of 6
@BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
3 of 6
TRAINING TOPICS BASICS
SETUP TROUBLESHOOTING IMPLEMENTATION
@BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
4 of 6
@BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
5 of 6
GROUP DISCUSSIONS The following discussions take place in the classroom/laboratory. Ending times noted are approximate.
Tuesday
• General Information • Learn about each other • Safety: Personal Protective Equipment and Fire Evacuation • Introduction to the course and materials • Location of additional reference materials • First day Registration Questionnaire
Wednesday • Review of Patient Result Screens • Review of QA area
Thursday • Flags, Codes and Messages • Review PROService and Intelligent On-line Service Info • Overview of Key Operator Certification program
Friday • Overview Beckman Coulter website • Last day self-evaluation, course evaluation and instructor evaluation • Graduation
@BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
6 of 6
@BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development B-1of 68@Beckman
Coulter
BASIC OPERATION MODULES
This document is not intended to replace the information in your Instrument Instructions for
Use Manual (IFU). Information in the Instructions for Use Manual supersedes information in any other manual.
Implementation
Setup
Troubleshooting
Basics
COULTER® LH 500 TRAINING MODULES
B-2 of 68 PN 624762CA.1 (June 2012) Professional Development @Beckman
Coulter
You will see the following symbols used throughout the learning modules. Important information you should know.
Techie-type information you may be interested in knowing.
Do these steps now!
Timely Tip
You reached the goal!
I do not understand…Questions Resources, Help
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-3 of 68@BeckmanCoulter
COURSE MAP - BASICS
Coulter Inovations
Prerequisite
Workstation
Basics
Startup
Quality Control
Running Samples
Shutdown
Begin Here
COULTER® LH 500 TRAINING MODULES
B-4 of 68 PN 624762CA.1 (June 2012) Professional Development @Beckman
Coulter
PERSONAL PROGRESS SUMMARY Name_________________________
Basic Operation Modules Date Initial Facilitator
Coulter Innovations Prerequisite
Workstation Basics
Startup
Quality Control
Running Samples
Shutdown
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-5 of 68@BeckmanCoulter
WORKSTATION BASICS
OBJECTIVES Given an operating COULTER® LH 500 System, be able to:
• Identify the Instrument Computer and the Workstation • Tell whether a display is from the Instrument Computer or the Workstation • Switch between the two computer displays using the Computer switch box • Log on and log off the Workstation • Identify the icons of the Command Center • Use Tool Tips and know why they are used • Shutdown and restart the Workstation • Navigate through the Instrument Computer • Reboot the Instrument Computer using the Standby/Reset switch • Define the traffic light colors • Use the on-line Help to find information using the Contents, Index and
Search • Be able to use Help Mode button • Create Favorites
Why Is It Important?
The LH 500 Workstation uses the Microsoft® Windows™ 2000 Operating System. The skills contained in this module are common to most Windows-based programs and will help you in other Windows encounters!
The LH 500 Instrument Computer uses an MS DOS-based system. The skills in this module will familiarize you with navigating via the keyboard.
The LH 500 HELP gives you all your instrument manuals on-line with easy access to many features unavailable in print. With practice you will see that using HELP is a convenient way to access information that is right at your fingertips
Resources
LH 500 Hematology Analyzer
WB
COULTER® LH 500 TRAINING MODULES
B-6 of 68 PN 624762CA.1 (June 2012) Professional Development @Beckman
Coulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-7 of 68@BeckmanCoulter
INFORMATION / PRACTICE SECTION
LH 500 System
The LH 500 System includes:
• The Analytical Station – Analyzer module, Diluter modules and Power Supply. The Analytical Station is also referred to as the Instrument.
• The LH 500 Workstation Computer – a Windows 2000 operating system and display with keyboard and mouse interfaces.
• The LH 500 Instrument Computer – an MS-DOS based system that shares the same monitor display and keyboard with the Workstation.
• A computer switch box - allows selection between the two computer bases and determines the display you see on the monitor.
• A digital communication box – allows communication between the Instrument Computer and the Workstation Computer.
This learning module covers the two computers and the switch box.
Computer Switch Box
Light indicates which position is currently in use.
Press button to change displays. Top (Pos 1) Bottom (Pos 2)
The switch box has two buttons used to select which computer display you need to see. The two computers share the same monitor and keyboard. The bottom switch (Position 2) connects to the Instrument Computer, the monitor and keyboard. The top switch (Position 1) connects to the Workstation Computer, the monitor, the keyboard and the mouse.
Note:You may have a different type switch box. See facilitator for demo.
COULTER® LH 500 TRAINING MODULES
B-8 of 68 PN 624762CA.1 (June 2012) Professional Development @Beckman
Coulter
There are two ways to switch from one display to the other:
• Simply press the top button or the bottom button. • Use the keyboard
Press the Scroll Lock key twice (you will hear a beep) and then the Up arrow key ↑ or the Down arrow key ↓.
How to Tell Which Display You Are On:
The Instrument Computer display has a blue background and has three main menu headings across the top: Diluter Functions---Setup---Diagnostics. Use the keyboard arrow keys to highlight your selection and then press the Enter key.
The Workstation Computer display has many different windows-type screens. If the logon screen appears then a user name and password must be typed. This should be the case right now if you are on this display.
If the monitor display is blank, try pressing the spacebar twice to bring it back. If that doesn’t work, try moving the mouse a bit.
Try This
Look at your monitor screen now. Bring up the display, if blank. Now look at the display to see which computer screen appears. Use the switch box to change to the other display. Be sure you can tell the difference. If not, please ask a facilitator.
LH 500 Workstation
• Log On to Windows 2000/LH 500 program
When the Workstation is logged off or if it was Shutdown and then Powered off/on, the Log On to Windows screen appears.
► Both a User Name and Password are required:
For ease of use on all LH 500 Workstations in the classroom, the User Name is Labadmin (not case-sensitive).
For class purposes the Password is coulter (lower case). Passwords are case-sensitive.
Type in the password now and press Enter from the keyboard.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-9 of 68@BeckmanCoulter
Let’s look at the Workstation desktop display next and learn some of its terminology.
LH 500 Workstation Display – Windows 2000 Desktop
Desktop Icons The five desktop icons on the upper left are functional windows icons. However, it is best not to use them. They are not necessary to operate the LH 500. All functions needed by the operator are accessible through the Command Center.
Command Center The Command Center is the green bar located across the bottom of the desktop area. Think of the Command Center as the Main Menu of the Workstation.
NOTE: The password “coulter” is not installed on the Workstation in your laboratory. Upon installation, the password for LabAdmin is blank (no password required). You may select your own password.
Windows 2000 Desktop Icons
Command Center
Instrument Status
COULTER® LH 500 TRAINING MODULES
B-10 of 68 PN 624762CA.1 (June 2012) Professional Development @Beckman
Coulter
Eight LH 500 screen
application buttons
The user currently logged on.
Process Type Usually has Auto Analysis selected
Run Type Select the test mode to run in
Asp Mode Auto (closed-vial) or Manual (open-vial)
Stop/Start Used to stop or start selected processing
configuration
Enable/Disable Blood Detectors
Select # aspirations/tube
Barcode entry Scanned or Typed Predilute Option with dilution factor entry
Traffic-light icon Instrument
Message Status
• A ToolTip appears over a Workstation button when your cursor moves or “flies” over the button. It remains on screen for a few seconds to tell you the name of the button. Try this now. Hold the cursor over a button without clicking.
• When you move the cursor towards the bottom of the screen, the Windows Taskbar may appear. Just move away from the taskbar to make it disappear, and then move back to the Command Center make your selection. Try this now.
Windows Taskbar Instrument Status
The Instrument Status box shows the status of the Instrument Computer. Some examples:
• SYS NOT READY – Instrument is in a Clean or Shutdown cycle
• SELECT FUNCTION – Instrument is ready but Command Center choices are not started
• AUTO MODE ON – Instrument is in the Automatic (closed-vial) mode of operation
• MANUAL MODE ON – Instrument is in the Manual (open-vial) mode of operation
• COMPRESSOR OFF – the compressor timed out (after one hour of non-use) or was turned off
• STARTUP – instrument running the startup cycle and tests
The same message displays on both the Instrument Computer (at the lower right) and the Workstation Computer.
LH 500 Screen Application Buttons
Use your mouse to view the tool tip name of each of the LH 500 screen application buttons below. Read the descriptions on the next page to familiarize yourself with what information is found in each area.
Quality Assurance
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-11 of 68@BeckmanCoulter
Select each button on the Command Center now to view the area that opens. When you want to change the area you are viewing, just select a new button from the Command Center The program automatically closes what was open and then opens the new choice. There are three exceptions:
• If the Run Configuration screen is open, you exit by selecting either
(OK, save and close) or the red to cancel any changes you made.
• If the Help screen is open, you exit by selecting the small x in the upper right
corner.
• If the History Logs are open, exit by selecting the small x in the upper right corner.
COULTER® LH 500 TRAINING MODULES
B-12 of 68 PN 624762CA.1 (June 2012) Professional Development @Beckman
Coulter
Asp Mode Field
Use the drop-down box to choose the aspiration mode for running samples. Auto is the closed-vial mode and Manual is the open-vial mode. The field defaults to Manual if the Run Type is R or if Process Type is Control and Run Type is Ltx Prime or Latex.
Stop and Start Buttons
Select the Stop button whenever you want to change the Process type or Run
Type or any of the choices on the Command Center. In fact, anytime that any choice needs to be changed, you must select Stop first.
Select the Start button after making your selections on the Command Center. You must press start after making your selections or the instrument will not respond.
Predilute and Factor Fields The LH 500 allows you to run dilutions of samples with very high counts. After you make your sample dilution, select the check box for Predilute. The Enter Dilution Factor window appears as shown below. Try this now.
You may enter your dilution multiplication factor from 1.1 to 5.0. Sample dilutions may only be run in the Manual processing (aspiration) mode and use only the CBC test mode. The factor entered remains in effect for one sample only. It then reverts to 1.0. Traffic-light Icon The traffic light icon shows red, yellow or green lights to indicate the instrument’s status. • A green light means all is well; there are no errors or messages. • A yellow light means the instrument recorded a message, but it is information
only. The instrument is still operating. You should look at the message when you have a chance (double-click on the yellow light) and then acknowledge it.
• A red light means the instrument stopped due to an error or malfunction or Auto-Stop request. An audible alarm sounds. Double-click on the red light to read the message(s) and then acknowledge it.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-13 of 68@BeckmanCoulter
Log Off The Workstation
Select
from the Command Center. The Log Off The System window appears.
• The default selection is Log Off Current User. • The other choice is Shutdown the Workstation.
OK to Log Off or Shutdown Continues with selected option. Cancel
Closes window and returns to Desktop.
Context- sensitive Help on the Shutdown topic.
Choose the default to change the current user logged on to the system (e.g. at the end of a shift).
Choose this to close the operating system properly and power off
COULTER® LH 500 TRAINING MODULES
B-14 of 68 PN 624762CA.1 (June 2012) Professional Development @Beckman
Coulter
Shutting Down the Workstation
In addition to the above recommendation, you may have to shut down and restart the Workstation in response to certain error situations or if the computer “locks-up” or doesn’t respond. Be sure to read any Help message for error recovery carefully for this indication.
In the event of a communication problem between the Workstation and the LH 500 Analyzer, you may need to reset the Analyzer using the RESET button on the lower left side of the Analyzer cover as well as selecting to shut down and restart the Workstation. Look up in HELP under the SEARCH TAB the topic “System Lockup” and read it. Practice
Step Action
1 Be sure you are on the Workstation display and select from the Command Center.
2 Select Shutdown the Workstation. Select OK.
3 The Workstation will save any unsaved data and display a window notifying you it is shutting down the workstation. Next a window is displayed that states you may now power off the workstation.
4 Turn Off the power using the power button on the front of the LH 500 Workstation computer tower.
5 After one minute, turn the power back on. Log on to the workstation when the Log On window appears.
LH 500 Instrument Computer Main Menu You switch from the Workstation Computer to the Instrument Computer only to access certain Diluter Functions and Diagnostics. Press the top button at the switch box to change to the Instrument Computer display. There are three Main Menu choices: • Diluter Functions • Setup • Diagnostics
NOTE: The Workstation should be powered down at least once a week for the Database to update and reallocate memory. A good time to do this would be during the Clean or Shutdown cycles of the Analyzer.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-15 of 68@BeckmanCoulter
Navigate through the menu tree using the Keyboard only (the mouse will not work in this interface). Use the Arrow keys to move Left, Right, Up or Down. The menu selections are highlighted. Once highlighted, press the Enter key to choose it. Many times you must press Enter a second time to begin the function. Just read the screen and follow the directions given. To back out of a menu choice simply press Esc or the F-9 key.
Notice that each of the menu choices on screen have one letter highlighted. This is an alternate way to navigate through the menu. Simply press the keyboard letter corresponding to the highlighted letter. This eliminates the need to press Enter to choose the selection. However, you will still need to press Enter when requested on the screen.
Diluter Functions
• Prime Reagents – use this function whenever you replace a box or cube of reagent. Before you prime, remember to enter the required lot information in the Workstation Reagent setup screen.
• Disinfect – use this function to prepare the instrument for shipping and to bleach the apertures and flow cell.
• Clean – this is the desired function for the daily Clenz shutdown for the instrument. It automatically performs Startup 30 minutes later.
• Rinse – use this function in conjunction with troubleshooting bath problems. It does a Drain and Rinse (refill) of the two baths and the flow cell.
• Purge – use this function to clear a possible flow cell clog. It purges the flow cell with Clenz and then returns to sheath (diluent).
Diluter Functions Setup Diagnostics
Prime Reagents Disinfect Clean Rinse Purge
Diluent Lyse Pak Cleaner All
Set Date/Time Optimize Hard Disk
Operator Options Service Options
Requires Service Diskette and Password
Fluidic Tests BSV Tests Autoloader Tests System Test Solenoid Test Drain and Vent HGB Lamp Adjust Enter Calibration Factors Copy Raw Data to Diskette
Multiple Aperture Zap Compressor On/Off Disable Reagent Sensors Bubble Mix Clean Needle
Cycle BSV Blood Detector Test Probe Wash BSV Removal
Autoloader Home Clear the Bed/Autoloader Home Rock the Bed Right Elevator Up/Down Left Elevator Up/Down Autoloader Test Routine
COULTER® LH 500 TRAINING MODULES
B-16 of 68 PN 624762CA.1 (June 2012) Professional Development @Beckman
Coulter
Setup
• Set Date/Time – use this function to set the date and time the instrument uses to timestamp sample results. If you are in an area that follows Daylight Savings Time, you need to change the time twice a year.
• Optimize Hard Disk – this utility begins automatically any time the instrument reboots (Standby/Reset). Use this function to begin the utility at any other time.
Diagnostics
• Operator Options – use these functions for troubleshooting. You will be introduced to each of these functions in the Troubleshooting Basics module.
• Service Options – these functions are only available to your Beckman Coulter representative.
Status Along Bottom of Display
If the Status is RED with an error message, use Alt-End to stop the beeping.
Practice Try moving around the menu:
Step Action
1 Highlight Diluter Functions and press Enter.
2 Highlight Prime Reagents and press Enter.
3 Press Esc twice to get back to the Main Menu.
Now try the alternate way:
Step Action
1 Press i (to choose Diagnostics)
2 Press O (to choose Operator Options)
3 Press B (to choose BSV Tests)
4 Press B (to choose Blood Detector Test) (Do not press Enter at this time!)
5 Press F-9 (to choose Exit)
F9-Exit CtrlF9-Stop CtrlC-Clear the Bed
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-17 of 68@BeckmanCoulter
Standby/Reset Switch
Locate this rocker-type switch on the lower left side of the instrument. Use this switch to place the instrument in a Ready or a Standby state.
• In the Ready state, the back portion of the rocker switch is flush with the
instrument’s base; this is position “I”. This corresponds to the green LED on the front of the instrument.
• In the Standby state, the front portion of the rocker
switch is flush with the instrument’s base; this is position “O”. This corresponds to the green LED on the front of the instrument. ► In the Standby state, voltages are still being applied to a memory location
in the Analyzer, but everything else is powered down.
Use the switch to reset the system or reestablish communication between components.
• To reset the system, place the Standby/Reset switch in Standby (position O) for 15 seconds, and then flip the switch back to Ready (position I). ► The Instrument Computer goes through a reboot process. The optimize
program starts automatically to perform daily, weekly or monthly scans of the hard drive. This will only happen once on any day, so if a reboot happens twice, it skips the optimize process the second time.
► If you want to cancel the optimize program press Esc and then answer yes “Y” to the question “Do you want to cancel optimize? Y/N”
► The Instrument Computer should optimize once a week. If you have not reset the system during the week, you should use the standby/reset switch to reboot and optimize.
If you observe that BOTH of the LEDs are off, this means that either the Main Power switch on the back of the instrument is OFF or that the instrument is unplugged or a fuse is blown.
The red button with the two vertical white bars is the Emergency Stop. Only use this to immediately stop the instrument if something is going very wrong (e.g. a tube breaking).
Do Not Touch This Button in Class.
COULTER® LH 500 TRAINING MODULES
B-18 of 68 PN 624762CA.1 (June 2012) Professional Development @Beckman
Coulter
Practice
Step Action
1 Place the Standby/Reset switch in Standby (position O) for 15 seconds.
2 Flip the switch back to Ready (position I).
NOTE
Observe that the Instrument Computer reboots. You do not have to be at the Instrument Computer display to use the Standby/Reset Switch. We just want you to be familiar with what happens when you are!
When the reboot finishes, you should be back at the Main Menu and the Status in the lower right of the screen should display SELECT FUNCTION. It may also say SYSTEM NOT READY if the unit is in a Shutdown cycle.
3 Press the bottom switch at the switch box or use keyboard commands to return to the Workstation display.
NOTE The Instrument Status box also displays SELECT FUNCTION.
Review the System Lockup topic in HELP.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-19 of 68@BeckmanCoulter
Browser Menu Bar Buttons
Help Topic Display Area
Help Window Navigation Pane
The LH 500 HELP System The LH 500 program has an extensive, multimedia HELP system built-in. When all other windows (screens) are closed, selecting the Help button from the Command Center opens the following screen. Do this now.
The Help screen uses a format similar to internet browsers such as Internet Explorer and has three main areas:
• Browser Menu Bar Buttons Use the buttons located here to navigate Back and Forward (through screens you have just viewed), Print, Go to a Glossary, etc. Three small buttons located in the upper right corner are used to Minimize, Maximize (or Restore Down) or Close the Help screen.
Close
Restore Down
Minimize
Maximize
COULTER® LH 500 TRAINING MODULES
B-20 of 68 PN 624762CA.1 (June 2012) Professional Development @Beckman
Coulter
• Help Topic Display Area
The right side of the screen displays the topic chosen. When you choose the Help button from the Command Center, it always opens to the topic “Using Command Center”.
• Help Window Navigation Pane This area has four tabbed sections and may be hidden by selecting the Hide button on the browser menu bar. Use the Show button to redisplay the navigation pane. (Try this now!) Each section provides a different way of accessing or finding the Help topic you want to read. Whatever topic is viewed in the Topic Display Area will also be highlighted in blue in the Navigation Pane Area.
Contents – used as a Table of Contents, shows broad subject areas.
Index – type a keyword in the white box near the top and the index scrolls to the possible topic choices. If you see the topic you want, there are two ways to open it: double-click on it or highlight the topic and then click on the Display button at the bottom of the screen.
If you have Help maximized, this Display button is hidden behind the Command Center. In this case, click on the Restore Down button in the upper right corner (the middle button).
Search – similar to Index. Type a word or words in the white box near the
top, then select the List Topics button or press Enter. If the topic you are looking for appears in the list, select it and then select the Display button. When your topic appears, notice that the word or words that you did the search on are highlighted wherever they appear in the topic.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-21 of 68@BeckmanCoulter
The three checkboxes at the bottom of this screen also influence search results. Try having different boxes checked and search again.
Vertical Bars
If the topic name is cut off, you can click on the vertical bar and drag to the right or double-click and it will resize to the longest title.
Favorites – this tab allows you to bookmark topics that you refer to over and over, so you do not need to look them up each time you open Help. Once you have the particular topic open, select the Favorites tab and then select the Add button at the bottom of the screen.
The next time you need your topic, open Help, select the Favorites tab and choose the topic you want to view.
COULTER® LH 500 TRAINING MODULES
B-22 of 68 PN 624762CA.1 (June 2012) Professional Development @Beckman
Coulter
Using Contents
Step Action
1 Log on to your individual Workstation.
2 Select from the Command Center.
The Using Command Center HELP window appears.
3 Select the hypertext jump (blue text) “Buttons” that will take you to a topic description of Workstation Command Center Buttons.
You may print any HELP topic from the Workstation.
4
Single-click with the left mouse button on the Contents tab.
Using Help Single click on the or double click on the words Using Help.
Using Help (topic) Single click on the or double click on the words Using Help.
5
Click on Print (Help Menu Bar) to print this topic. The Print Topics window opens. Choose Print the selected topic.
The Print Dialogue window opens. See next page for information
NOTE This screen is for example only. DO NOT change the printer already chosen in class. Also, depending on the printer, this screen may vary slightly in appearance.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-23 of 68@BeckmanCoulter
The printer you are using should be highlighted automatically on the General Tab.
If you want more than one copy, type in the number you want on the General Tab. Select Print
Choose the Setup tab to change the orientation of printout to Landscape. This option may be in a different tab. It depends on the printer you have.
6 At the top of the HELP window, find the Back button. Select Back.
7 Where did the Back button take you? __________________________
8 Select Back again.
9 From Using Command Center select Process type field (hypertext jump)
10
Now let’s find another topic using CONTENTS… In Contents, click on
Quick Reference
System Components
LH 500 Front View
Using Index
Step Action
1 Click on the Index tab.
2 Type LATRON. The topic LATRON is highlighted.
3 Click on . (Reminder: if Display is hidden, choose the “Restore Down” button or simply double-click the topic LATRON.)
4 Select Running Latex (Control) Diff and Retic.
5 Click on .
6 Print the topic and save it for use in the Quality Control [QC] module.
COULTER® LH 500 TRAINING MODULES
B-24 of 68 PN 624762CA.1 (June 2012) Professional Development @Beckman
Coulter
Using Search
Step Action
1 Click on the Search tab.
2 Type calibration.
3 Click on List Topics. How many topics are found? __________
4 Place the cursor on the vertical line between Title and Location and then click and hold the left mouse button and drag the arrow to the right until you see complete titles for all topics.
5 Select Calibration Overview, then or double-click. The opened topic has the word “calibration” and other related words highlighted in blue. This is unique to Search.
6 Print the topic and save it for use in Calibration [CAL] module.
Help Mode
Step Action
1 Close HELP by clicking on the (Close button) at the upper right corner of the window.
2 On the Workstation Command Center, select (Patient Results), the Patient Tests [Results & Graphics] window displays. If the Results & Graphics view does not display, select the button from the common toolbar.
3 Select the Parameters tab.
4 With the left mouse button, click on the (Help Mode) button on the Common Tool Bar (at the top of the screen).
5 Release the mouse button.
6 Move the cursor (with question mark) to the WBC field.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-25 of 68@BeckmanCoulter
7 Click on the WBC field. A pop-up window opens.
Help Mode gives you additional information about on-screen items without having to access a HELP topic.
8 Close the Help pop-up window by selecting the .
NOTE
It is always necessary to close the Help window when finished or it may become “stuck” on another window. If this occurs, go to the Run Configuration screen and you will see the Help screen behind the Run Configuration screen. Click on the Help screen and close it.
Creating Favorites
Step Action
1 You may add any topic from Help to the Favorites list. Begin by finding the topic you want to add to the list and open it.
2 Once opened, click on the Favorites tab and you will see the topic title near the bottom.
3 Click the Add button.
4
Use the Contents, Index or Search tabs to locate the following topics, and then put them in the Favorites tabbed area:
• Replace Reagent Containers
• Running Latex Control – Diff and Retic
• Cycling CBC/Diff Control in Automatic Aspiration Mode
• Message List
Topics may be Added or Removed as necessary.
Be sure you understand all the terminology and practice the skills mentioned in this entire module. Take as long as you need to have confidence in this information. When you are confident in your ability, proceed to the Skill Check for this module.
COULTER® LH 500 TRAINING MODULES
B-26 of 68 PN 624762CA.1 (June 2012) Professional Development @Beckman
Coulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-27 of 68@BeckmanCoulter
WORKSTATION BASICS
SKILL CHECK
1. Identify these parts of the Command Center:
____________________________________
_________________________________
______________________________
______________________________
______________________________
_____________________________________________________
________________________
_____________________
__________________________ __________________
__________________________
2. Define the traffic light colors, what they mean, what you should do:
Green light _____________________________________________________
_______________________________________________________________
_______________________________________________________________
Yellow light ____________________________________________________
_______________________________________________________________
_______________________________________________________________
Red light _______________________________________________________
_______________________________________________________________
_______________________________________________________________
At any Individual Workstation with a facilitator present: 3. Be sure you are on the Workstation display.
4. Should the Workstation be Shutdown routinely? If yes, how often and for what purpose? __________________________________________________________
5. Show the facilitator how to Shutdown a Workstation.
6. Name one time you may need to Shutdown a Workstation.
__________________________________________________________
7. Go to an Instrument-connected Workstation and change to the Instrument computer display.
Name the three Main Menu choices: ________________________________ ______________________________________________________________
WB
COULTER® LH 500 TRAINING MODULES
B-28 of 68 PN 624762CA.1 (June 2012) Professional Development @Beckman
Coulter
8. Demonstrate the two ways of moving around the Instrument Display menu to your facilitator.
9. Be prepared to demonstrate the following to your facilitator:
o Show the menu path to prime the CBC Lyse. o Show the menu path rock the Autoloader bed.
10. Reboot the Instrument Computer using the Standby/Reset switch. Relate the meaning of the green LEDs on the front of the instrument to this switch.
Using HELP MODE
1. At the Workstation, go to (Patient Results). You should be on the Patient Tests [Results & Graphics] window.
2. Click on the CBC Data tab.
3. Use the HELP MODE button to find additional information about the RBC Histogram.
4. From the RBC Histogram HELP window displayed, answer the following question:
5. How do you view an enlarged version of a histogram?________________
6. Close the HELP window.
Creating Favorites
1. Open HELP and show your facilitator the Favorites you added.
2. Demonstrate how to delete Favorites.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-29 of 68@BeckmanCoulter
STARTUP
OBJECTIVES
Given an operating COULTER® LH 500 and access to HELP
• Locate the STARTUP on the Command Center • Initiate Startup cycles on the LH 500 Analyzer • Access the Quality Assurance, Daily Checks windows to check
results • Access the Daily Check Details window • Perform the proper procedures in the event of a message on the Daily
Checks window, following the HELP procedures • Repeat Background from the Command Center • Suppress automatic printing of Daily Checks • Use (View History) button to view stored Daily Checks results • Return to the Daily Checks window using the View Current button
Why Is It Important?
Quality Assurance, beginning with Daily Checks, is your way of knowing that your LH 500 is in proper working order and ready to run controls and patient samples.
Resources
To complete this module you will need: • LH 500 Analyzer • LH 500 Workstation with HELP • Laminated Summary Sheets
SU
COULTER® LH 500 TRAINING MODULES
B-30 of 68 PN 624762CA.1 (June 2012) Professional Development @Beckman
Coulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-31 of 68@BeckmanCoulter
INFORMATION / PRACTICE SECTION
Startup
Step Action
1 Make sure power is on at the LH 500 Analyzer and at both the Workstation and Instrument computers.
2 Log on at the Workstation.
3
At a Workstation, go to (HELP) from the Command Center.
Go to Search Type Startup
Select List Topics
Select Performing Daily Startup Click
4 Print Performing Daily Startup.
5 For additional information, access the following hypertext topic: Step 4: Check Daily Test Results
Print this topic
6
Go back to Search Type Background
Select List Topics Select Checking Background Test
Results and Display Print this topic
(You should now have 3 pages printed. You may wish to staple them together for future reference.) Close HELP.
7 Do you want an automatic printout of Daily Checks? If Yes, go to step 8. If No, go to step 11.
8
Go to Run Configuration now and select the Daily Checks under QA samples. This will automatically print the Daily Checks after a Startup.
Display
COULTER® LH 500 TRAINING MODULES
B-32 of 68 PN 624762CA.1 (June 2012) Professional Development @Beckman
Coulter
9 Select (OK) to save
Performing a Daily Startup
Step Action
1 Perform the Daily Start-Up following the Help procedure.
2 Select Startup from the Process Type box on the Command Center, then select to begin.
3 Refer to Checking the Daily Test Results to go the screen for results review.
4
Review the results for pass/fail. • If any background test fails, perform a background check.
Refer to the Help topic Checking Background Test Results to do this background check.
• If any other subsystem fails (Electronics, Press/Vac, Temperature, Hgb Lamp, Autoloader), select (Daily Check details) to see what failed then repeat Start Up.
• If you have a pressure or vacuum out of range, then run System Test to adjust the reading. (You will learn more about System Test in the Elective TB-Troubleshooting Basics)
NOTE When cleaning agent is in the instrument, only a Startup is allowed
5 Select (View History) to see a list of all previous Daily Checks results.
6 Select a date you wish to view and the results appear on the lower half of the screen. You can also use the + button to view the details of these previous results. Practice using this area now to review past startup results.
7 Select a Startup from at least a week ago and print it.
NOTE
If the requested Daily Checks (Startup) results do not appear, more than one line may be selected. After viewing a result, deselect it using the line select button again. The Daily Checks History log stores all Daily Checks results until the next software update or until the workstation is re-imaged. You can delete results from the Daily Checks History log.
8 Select (Current) on the Specific Toolbar to return to the Daily Checks window.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-33 of 68@BeckmanCoulter
Show printouts from your Daily Checks (Startup) from today, as well as a printout of a past startup (e.g. last week) from the Daily Checks History log to show the facilitator as part of the Skill Check for this module.
COULTER® LH 500 TRAINING MODULES
B-34 of 68 PN 624762CA.1 (June 2012) Professional Development @Beckman
Coulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-35 of 68@BeckmanCoulter
STARTUP
SKILL CHECK
1. Show a facilitator the printouts from today’s Daily Check (Startup), as well as a printout from the Daily Checks History log of a previous check of at least a week ago.
2. Number the buttons illustrated in the proper order for accessing the current Daily Checks Details window, starting from the Command Center and ending with closing the Details window
_____ _____
_____ ______
3. Show the facilitator how to repeat Background Tests.
4. A message in the Reagent field means _________________ ___________________________________________________________.
5. On the LH 500 Workstation, where do you select automatic printing of Daily Checks results? ______________________________________________
6. Place a next to the button used to View History of Daily Checks results.
_______ _______
SU
COULTER® LH 500 TRAINING MODULES
B-36 of 68 PN 624762CA.1 (June 2012) Professional Development @Beckman
Coulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-37 of 68@BeckmanCoulter
QUALITY CONTROL
OBJECTIVES Given an operating COULTER LH 500 Series Analyzer, Instructions for Use for control products, COULTER LATRON PRIMER and CONTROL, COULTER 5C Cell Control and COULTER Retic-C Cell Control and access to HELP
• Describe proper storage and handling requirements for LATRON PRIMER AND CONTROL, 5C Cell Control and Retic-C Cell Control and perform QC analysis according to the Instructions for Use and HELP procedure
• Access control folders using the Control Tree • Recognize flagged control results for COULTER 5C Cell Control and
COULTER Retic-C Cell Control • Access HELP information for action to take when a control is outside
expected ranges • Deselect and restore control results • Add a comment to a control result • Use Levey-Jennings graphs to recognize trends and shifts • Identify the steps required to print a control result • Set up shift designations
Why Is It Important? Understanding how to store, handle and use the control products available ensures reporting the most accurate results possible to the clinician. Knowing how to review and output control results is an important follow-up to control processing. It allows recognition of shifts or trends in QC that might indicate control or instrument problems.
Resources To complete this module you will need
• LH 500 • LH Workstation with HELP • Instructions for Use (IFU) for LATRON PRIMER and CONTROL, 5C Cell
Control, Retic-C Cell Control • Control products for processing • Retic Prep kit (Optional) • Control folders with stored data
QC
COULTER® LH 500 TRAINING MODULES
B-38 of 68 PN 624762CA.1 (June 2012) Professional Development @Beckman
Coulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-39 of 68@BeckmanCoulter
INFORMATION / PRACTICE SESSION
Control Storage and Handling
Refer to the Instructions for Use available in the lab to answer the following questions before you run controls.
1 LATRON Primer and Control are run at room temperature.
TRUE FALSE
2 State the proper procedure for mixing LATRON Control.
____________________________________________
3 5C and Retic-C Cell Controls should be warmed at ambient temperature for _______________ minutes.
4 It’s OK to mix 5C and/or Retic-C Cell Controls using a mechanical mixer.
TRUE FALSE
5 You should return 5C and Retic-C Cell Controls to the refrigerator within _____________ minutes.
6 When you hand mix 5C Cell Control, how many 8 x 8 x 8 sets do you perform? ______________________________
When you hand mix Retic-C Cell Control, how many 8 x 8 x 8 sets do you perform? ________________________
Show these answers to a facilitator as part of the Skill Check for this module.
Get the 5C and Retic-C control vials for your unit from the refrigerator to begin equilibrating at AMBIENT TEMPERATURE (per Instructions for
Use) as you do these next steps.
COULTER® LH 500 TRAINING MODULES
B-40 of 68 PN 624762CA.1 (June 2012) Professional Development @Beckman
Coulter
Running Latron Primer and Control
Before running any controls go to (Run Configuration) and deselect the checkbox for Autoprint of controls, if it has been selected. Click on (OK)
Step Action
1 Run the Latron Primer and Control found at your unit following the Running Latex Control --Diff and Retic procedure from HELP.
Watch out for these relatively common errors!
Tips
When you run LATRON Primer, be sure to press Stop then choose CONTROL as the Process Type and Ltx Primer as the Run Type. Press Start .The aspiration mode defaults to Manual. The LH 500 compares the Primer results to the maximum value of 500.
When you run LATRON Control, be sure to press Stop then choose Latex as the Run Type. Press Start . The LH 500 compares the results to those entered into the Workstation at control set up.
2 Use the Control tree to view your Latron results.
3 Note that you have two entries with the same date, one for the Primer and one for the Control.
4 Use both horizontal scroll bars to view all results for both 5PD (five-part diff) and Retic.
NOTE: If you have never used LATRON Primer and Control, see a facilitator for additional details about using these products.
Primer
Control
Primer Scroll bar Control
Scroll bar
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-41 of 68@BeckmanCoulter
Latex Control Is Outside Expected Ranges
Step Action
1
At the Workstation go to on the Command Center. Choose on the Common Toolbar. And then from the Common Toolbar. Topic on the screen is: Reviewing Control Results
2 In the HELP window at the left of the screen, select the Contents tab, then LH 500 Analyzer, then Controls. Choose When a Latex Control is Outside its Expected Ranges. Choose display.
3 Read the topic. You now have some basic troubleshooting tools to use if LATRON Control is outside its expected ranges.
4 Close HELP using the in the upper right corner.
Running 5C and Retic-C Cell Controls
Step Action
1 Open HELP from the Common Toolbar, select Index and type CYCLING, click on and Display Cycling Controls in the Automatic Aspiration Mode.
2 Read the procedure.
3 Close HELP.
NOTE You do not have to be on the QA/QC screen when you run controls
4 Use the HELP procedure to make the proper setup selections on the Command Center.
5 Place your properly mixed controls into cassette(s) with bar code labels facing up.
6 Place cassette(s) into the right-hand loading bay.
7 Use the Control Tree (See the Control Tree on the next page) to access control folders and ensure that control results are in their correct folders.
8 Return the 5C Cell Control and Retic-C Cell Control vials to the refrigerator within 30 minutes.
COULTER® LH 500 TRAINING MODULES
B-42 of 68 PN 624762CA.1 (June 2012) Professional Development @Beckman
Coulter
ABN II
ABN I
Norm
Level I
Level II
Level III
LH 500 Control Tree
5C and/or Retic-C Cell Controls are Outside the Expected Ranges
Step Action
1 At the Workstation QA/QC screen select (from the Common Toolbar).
2 Use HELP to find the following topic: When a Control is Outside its Expected Ranges
3 Print the topic. You now have some basic troubleshooting tools to use if 5C Cell Control or Retic-C Cell Control is outside expected ranges.
4 Close HELP.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-43 of 68@BeckmanCoulter
Finding Flagged Control Results
Step Action
1 At the Workstation, from the Command Center, go to ,
Open the Control Tree by clicking on the in front of BCI.
2 Click on the the in front of 5C. All 5C folders open in numerical order.
3 Click directly on the 5C Cell Control folder you wish to open. The most recent result is at the top of the list.
4
Search through the 5C folders until you find a flagged result. Look for the Date and Time fields to have a red background Use the scroll bar at the bottom of the results window to find the specific flagged results.
NOTE If you cannot find a control run that is out of limits, then choose any control run in any control folder (including Latron).
Deselecting and Restoring a Control Result
Step Action
1 Now that you’ve found a flagged result, click on the deselect [Des] button at the left of the line.
The line is now grayed out and removed from the statistical results below. Note the total number of runs in the control folder after removing one run.
NOTE When you print a file with a deselected run, the word “yes” appears in the deselect (des) column.
2 Practice deselecting and restoring control results, but leave at least one “removed” result in the folder for your final printout.
COULTER® LH 500 TRAINING MODULES
B-44 of 68 PN 624762CA.1 (June 2012) Professional Development @Beckman
Coulter
Add a Comment in a Control Folder
Step Action
1 Choose a control run from today. Click on the button.
2 Type a comment in the comment box and select [OK] to save the comment.
3 The Workstation adds the comment to the appropriate control sample and places an X in the CMNT column for the specific control. The comment is also added to the History Logs, Control Data tab.
4 Click on any box with an X in the CMNT column to view a comment, add text or change text.
NOTE When you print the file, the comment appears under the run with which it is associated.
5 Select (History Logs) from the Command Center.
6 Select the Control Data Tab and view the comment added to the control file.
7 Close the History Logs using the in the upper right corner.
Levey-Jennings Graphs
Step Action
1 Open the QA/QC window again. Select the same control folder, which you added a comment, to work with.
Below the statistical information for a control folder are the thumbnail Levey-Jennings graphs showing the last 10 runs in the control folder.
The parameters are grouped in sets of three, starting with WBC, RBC, Hgb. The scroll bar at the top of the graphs lets you access the graphs for other parameters.
2 Scroll to PLT and click on it now. Use the graphs to observe trends and shifts.
3 Double-click on any thumbnail graph to see a larger version called full-page. This graph shows up to 100 data points for the selected control folder. Do this now.
4 Close the full-page graph by selecting Exit .
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-45 of 68@BeckmanCoulter
Printing Control Results
Step Action
1 With the control folder still open, from the Common Tool Bar select the (Print) button.
2
By selecting the desired radio buttons on this screen you can print various combinations of control folder data. For this exercise, choose “Selected Lot” and “Thumbnail” graphs.
3 After making your selection, click on .
4 Collect your printouts and save for the Skill Check.
Setting Up and Using the Shift Clocks
On the specific toolbar in the QA, QC screen area are a set of clock buttons. These allow you to review control runs by shift. Shift 0 is all runs from all shifts. Shifts 1, 2 or 3 are the runs by individual shift as definded by your lab. Selecting any of these buttons automatically extracts the correct runs based on the shift time settings. The buttons are active only if shift times are entered. To set up individual shift times go to: System Setup Quality Assurance .
COULTER® LH 500 TRAINING MODULES
B-46 of 68 PN 624762CA.1 (June 2012) Professional Development @Beckman
Coulter
Practice
Step Action
1
Select System Setup and
2 Select the tab.
3
Select Use Multiple Shifts.
4
View the area where shift times are entered. Please do not change.
View what is setup on your unit. Press (cancel) to back out.
To practice, use an individual workstation (after this exercise) to enter the starting times of your shifts. Refer to the screens above.
5 Select (OK).
6 Go back to a control folder and print a set of data from just one shift. (Do Not print any Levey-Jennings graphs at this time.)
7 Save the printout for the Skill Check.
1
If you can discuss storage and handling of controls, process controls using HELP procedures, and discuss basic troubleshooting of controls that are outside expected ranges, proceed to the Skill Check for this module. Collect your printouts and proceed to the Skill Check for this module.
3 2
4
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-47 of 68@BeckmanCoulter
QUALITY CONTROL
SKILL CHECK
Storage and Handling
Answer the following questions:
1. LATRON Primer and Control may be stored at 2 – 80 C or at room temperature.
TRUE FALSE
2. COULTER 5C Cell Control should be mixed using which of the following techniques?
a) using the LH Analyzer rocker bed
b) by hand 8 x 8 x 8 two times
c) using a rocker or rotating mixer
d) any of the above
3. Storage of 5C Cell Control and Retic-C Cell Control is at
a) 2 – 80 C
b) ambient temperature
c) either of the above
4. Show your facilitator the control folder printouts showing the following:
a. A result that has been removed from the statistical information
b. A comment based on a control result
c. A set of thumbnail graphs
d. The printout showing control runs from one shift.
5. How do we know that a control run is out? (4 answers)
___________________________________________
___________________________________________
___________________________________________
___________________________________________
QC
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-48 of 68
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-49 of 68
RUNNING PATIENT SAMPLES OBJECTIVES
Given an operating COULTER® LH 500, bloods collected in EDTA, other supplies, and access to HELP
• State the maximum aspiration volume needed for automatic and manual modes of operation
• State the maximum stability of CBC/Diff and Retic samples stored at room temperature and stored refrigerated
• Identify the two types of cassettes that can be used on the LH 500 and the proper tubes to use in each
• Process bar coded samples in the automatic mode of operation and print results automatically
• Process bar coded and non-bar coded samples in the manual mode of operation and print results automatically
• Process a STAT sample • Process samples in the Pre-dilute mode • Identify the populations on the two-dimensional dataplot for Diff and Retic • Find samples in the Database using Navigation buttons (Previous)
Why Is It Important?
Running samples is a daily task that occupies much of your time in the lab. Learning how to process samples efficiently on your LH 500 will save time.
Resources
To complete this module you will need
• LH 500 • LH 500 Workstation with HELP • Blood samples collected in EDTA anticoagulant • Bar code labels (located in trays on the Skill Check cart) • Cassettes • Pipettors, tips and clean tubes (for Pre-dilute) • LH Series Diluent • Microtainers (for elective exercise)
RPS
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-50 of 68
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-51 of 68
INFORMATION / PRACTICE SECTION
Sample Storage and Stability
Step Action
1 At a Workstation, from (HELP), go to Contents LH 500 Analyzer Operating Operating-BASIC
2
Display and print the following topics
Collecting Specimens
Storing Specimens.
3 Close HELP
4
Answer the following questions:
• What is the minimum amount of properly collected venous sample required in a sample tube to be able to run in the Automatic mode? ________
• What is the maximum volume of blood aspirated in the Automatic mode? ________________ In the Manual mode? __________________
• State the maximum stability of a CBC/Diff sample stored at Room temperature ______________ refrigerated ________________
• State the maximum stability of a Retic sample stored at Room temperature ______________ refrigerated _________________
5 Have a facilitator review the different cassette choices available for use on the LH 500.
Automatic Mode
Before you begin, make sure you have the supplies you need: • Blood samples collected in EDTA • Bar code labels • Sample cassettes
Be sure to wear your labcoat and gloves, during this procedure.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-52 of 68
Instrument/Workstation Overview
Step Action
1 Obtain bar code labels for CD, C and R Run Types from the specified baskets and place them on the sample tubes at your unit.
2 Click on (Run Configuration) from the Command Center.
Make sure that Automatic Output, Print (tab) is set to All Samples
3 At the Command Center, select AUTO ANALYSIS as the Process Type, CD as the Run Type and AUTO as the Asp Mode. Select Start
.
Running Samples
Step Action
1 Place CD sample tubes into a sample cassette, making sure the bar code labels are facing up.
2
Place the cassette into the right-hand loading bay.
A sensor detects the presence of the cassette and starts the run automatically. If nothing happens look at the Workstation Instrument Status box to see if the instrument started. If not, press the Start button.
3 Look at your printouts. Compare to the Patient Tests [Results & Graphics] window.
4 Click on the Diff Data tab.
5 Pass the cursor over the populations on the the two-dimensional Dataplot to learn their identification through the ToolTips.
6 Double-click on the two-dimensional Dataplot to enlarge it.
7 Close the Dataplot by selecting [Close]
8 Repeat exercise using the C labels and make appropriate changes toCommand Center.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-53 of 68
Manual Mode
Using the hand-held scanner to identify samples
Step Action
1 Place a C or CD bar code label on a sample. Change Run Type appropriately and change Asp Type to Manual. Select Start .
2 Cursor automatically goes to the Barcode field.
3 Hold the scanner over the bar code label. Press and hold the trigger until the scanner beeps. The barcode number appears in the Barcode field.
4 Make sure the sample is well mixed. Remove the stopper from the tube.
5
Immerse the manual mode probe in the sample.
Press and release the aspiration bar to activate manual mode aspiration. When you hear the “beep” from the monitor, remove the tube and re-cap it. The probe wash rinses and dries the probe automatically.
NOTE
If you have a non-bar coded sample, you can manually type the accession or identification number into the Barcode field on the Command Center by using the keyboard. Press <ENTER> or <TAB>.TRY IT!
Be sure to wear your full-face protection, in addition to your labcoat and gloves, during this procedure.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-54 of 68
Running a STAT
Step Action
1 Obtain four CD bar code labels. Set up Command Center appropriately for Auto aspiration mode.
2 Put three labeled tubes into a cassette and place in loading bay.
3 After the first tube aspirates, select Stop
from the Command Center.
4 When the cycle completes, select Manual Asp Mode. Select Start .
5 Run the Stat in manual mode. When the cycle completes, select stop
.
6 Resume cycling the cassette by selecting the Auto Asp Mode, then
Start .
Using the Predilute Mode
The Predilute mode on the LH 500 may be used to run specimens that are over the reportable range or to run a citrated tube when you have clumped platelets. When chosen, it runs in the CBC test mode only. You may enter dilution factors from 1.1 to 5.0. The sample results are automatically multiplied by the dilution factor entered. The minimum amount of blood with which to make a dilution is 50 μL. Remember that Manual mode requires 125 μL of sample for aspiration. After running a dilution, the Analyzer automatically disables predilute.
Step Action
Use a sample for which you already have results.
1
Make a dilution manually using LH SERIES DILUENT provided. Using a pipettor:
• Dispense 100 μL blood into a clean tube. • Dispense 100 μL LH Series Diluent into the same tube, and
mix well.
2
On the Workstation, Command Center:
• Select Stop • Predilute (CBC) is enabled • Set the Factor to 2.0 in the pop-up box that appears for the
dilution just prepared. Select Start
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-55 of 68
NOTE There is no need to change Run Type or Asp Mode. This allows you to continue using your previous settings once the Predilute cycle completes.
3 Identify your sample to the LH 500 using the keyboard to type an ID. Press Enter or Tab.
4 Run your sample in the Manual mode. (Predilute is only active in the manual mode.)
5 Print your results.
6 Check these results with the results of the same sample run undiluted.
7 Save printouts of the undiluted and diluted results for the Skill Check.
Using Micro-collection Tubes (Elective Exercise)
Step Action
Get micro-collection tubes, EDTA blood tubes, and transfer pipettes from the supply in the lab.
1 Look at a demo micro-collection tube for the fill level required for manual mode aspiration.
2 Using a transfer pipette, fill two or three micro-collection tubes with blood from one of the sample tubes you already have.
3 Get bar code labels for CD and C Run Types.
4 In Run Configuration, set Print to All Samples.
5 Use the hand-held bar code scanner to enter the bar code ID# at the Workstation. Refer to the Manual Mode procedure.
6 Process sample in the manual mode.
7 For additional samples, repeat steps 5 - 6
8 Save printouts for the Skill Check.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-56 of 68
Running Samples in the Retic Mode (Elective Exercise)
Step Action
The Reticulocyte methodology on the LH 500 is semi-automated. It requires the use of the Retic Prep Kit (PN 7546978) which contains two reagents, A and B.
• Reagent A – modified New Methylene Blue stain provided in a dropper bottle
• Reagent B – a clearing solution of very dilute sulfuric acid
The preparation steps must be followed exactly for accurate results:
1 Use one or two samples.
2 Label two 12 x 75 mL glass vials for each sample.
3 Pipet 50 μL of well mixed sample into its labeled vial.
4 Add four drops of Reagent A immediately and shake vial to mix blood and stain. Allow to incubate at room temperature for a minimum of 5 minutes and a maximum of 60 minutes.
5
Prepare instrument to run the Retic mode:
• Select . Choose Process Type AUTO ANALYSIS and Run Type R.
• Be prepared to type or scan the ID. Select
6 Gently remix a blood/stain vial. Pipette 2 μL of the mixture into the bottom of the clean, labeled 12 x 75 mL glass vial for that control.
7 Immediately dispense 2 mL of Reagent B into the vial, holding the vial at an angle while doing so. This method provides mixing of the sample with the clearing solution. Do not shake to mix.
8
Wait 30 seconds and then analyze the retic preparation you just made. • Type in the ID and press Enter or Tab. • Immerse aspirator tip into the retic preparation • Press and release the sample bar (it will aspirate the entire
contents) • Remove the tube when you hear the beep
9 Review results.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-57 of 68
Using Navigation Buttons
• At the Workstation, on the Patient Tests [Results & Graphics] window, use the Navigation drop-down box to select the Completed folder in which you want to look at samples. Example: CBC/Diff. It acts as a sort, using the Navigation buttons.
• Use Navigation buttons (located on the Specific Toolbar) to find samples that you have run previously today.
How to Rerun a Sample Using the ToDo List (Elective Exercise)
When you are bidirectionally interfaced, sample requests are automatically downloaded to the LH 500 ToDo List by your Host/LIS system. When you run the samples, they are removed from the ToDo List. If you need to rerun a sample there are two scenarios:
• Just rerun it. The Workstation gives you a No Match status along with the Sample ID (from the bar code label) and the results. The instrument uses the Run Type mode selected at the Command Center. There will not be any demographics associated with the rerun. You can always edit the demographics to the run later.
• Manually add it back to the ToDo List. This option eliminates the No Match status and runs the sample in the preassigned Test mode. If you want demographics they have to be entered at the time you add it to the ToDo list.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-58 of 68
Adding a Sample Request to the ToDo List
Step Action
1 Select (Add Sample Requests) from the common toolbar of the patient results area.
2 Select a Test Mode check box.
3 Click once in the Sample ID area to place your cursor, then scan the tube bar code label. Leave the Cassette/Position field blank.
4 Use the <Tab> key to move the cursor to the Patient ID field.
5 Open the drop-down box to select the Patient ID. Since this is a previously run sample, it should be there. The other demographics associated with the sample automatically populate the fields.
6 Add any other information you may need and then select at the bottom of the screen to add it to the ToDo list.
7 Select (exit). If you wish to confirm the new entry, go to (Database/ToDo View) and then select the test mode folder you assigned to the repeat.
8 Place the repeat tube into any cassette and run it.
Proceed to the Skill Check for this module. Bring required printouts to a facilitator as part of the Skill Check.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-59 of 68
RUNNING PATIENT SAMPLES
SKILL CHECK
• Have your facilitator check your answers to the questions on page B-51 of 68 of the module.
• Check the tube types and sizes that may be used in each type of sample cassette:
• Show the printouts from this module to your facilitator.
• At an LH 500 Workstation, use the Navigation buttons to find a two-dimensional diff Dataplot on a sample that you ran for this module.
• Using HELP, if necessary, show your facilitator that you can identify Diff populations and enlarge the Dataplot.
• Which of the three Run Types is used when you run a Prediluted sample? _______________
• If you were running a citrated tube because of clumped platelets, what would you type in as a dilution factor? ____________
Controls S-CAL Hemogard 2 & 3 mL pediatric
5 mL rubber stopper
7 mL rubber stopper
13 mm cassette (gray)
16 mm cassette (black)
RPS
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-60 of 68
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-61 of 68
SHUTDOWN
OBJECTIVES Given an operating COULTER® LH 500
• Perform the Clean procedure using COULTER CLENZ® cleaning agent • State what cycle is performed at the end of the 30 minute Clean time • State the difference between the Clean procedure and the Shutdown procedure • State the minimum time for the LH 500 to be in Shutdown • State the maximum time for the LH 500 to be in Shutdown • State when it is necessary to perform Extended and Prolonged Shutdown
Why Is It Important?
To ensure optimal cleaning of the instrument, the Clean procedure or the Shutdown procedure must be followed daily.
Resources
To complete this module you will need
• LH 500
SD
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-62 of 68
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-63 of 68
INFORMATION / PRACTICE SECTION The LH 500 must be shutdown in a cleaner (CLENZ) cycle for a minimum of 30 minutes once every 24 hours of use. The shutdown process removes reagents from the instrument and replaces it with cleaner. The Clenz reagent is an enzymatic cleaner that rids tubing of debris and prevents protein buildup on apertures, in the BSV (blood sampling valve) and in the flowcell. The LH 500 gives you two ways to accomplish this:
• The Clean cycle that switches the instrument to cleaning reagent, waits 30 minutes and then automatically performs the Startup cycle.
OR
• The Shutdown cycle that switches the instrument to cleaning reagent. • The operator must then request a startup after 30 minutes or more.
The Workstation posts an entry to the Daily Checks History Log with the date and time that the Shutdown request occurred.
Clean Cycle
Please perform this procedure every afternoon in the classroom at about 4:15.
Step Action
1 From the Command Center select Stop to put Instrument Status to SELECT FUNCTION.
2 Switch to the Instrument Computer display by pressing the top button at the switch box.
3 From the Main Menu, select Diluter Functions Clean.
4
Press Enter, Enter.
• The screen displays the message “Clean Cycle in progress. This cycle takes approximately 35 minutes. Please wait…” A timer displays in the upper right. Instrument Status display is SHUTDOWN and then SYS NOT READY.
• It takes about two minutes to change to the cleaner. Then
the system waits for 30 minutes when it automatically begins the startup cycle. This takes about five minutes. Instrument status now displays STARTUP.
5 Switch to the Workstation display by pressing the bottom button at the switch box. You may do this at any time after beginning the Clean cycle.
6 Verify your Daily checks information from the startup.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-64 of 68
7
If you need to interrupt the Clean cycle you have two choices
• F4: Abort the cycle • F5: Run Startup now
It is preferable to use F5 if you cannot wait the entire 30 minutes (e.g. a stat request)
NOTE Clean Cycle timing is NOT programmable or changeable, other than interrupting if necessary, as indicated above.
Shutdown
Step Action
1 From the Command Center select Stop to put Instrument Status to SELECT FUNCTION.
2
Select Shutdown from the Process Type box and then select Start to begin the shutdown cycle.
• Allow the instrument to remain in shutdown for a minimum of 30 minutes.
• Leave the power ON.
3 Select Startup from the Process Type box and then select Start to begin the startup cycle.
4 Verify your Daily checks information from the startup.
Important Notes
• Once the instrument is in Shutdown, the only allowable Process type is Startup. All other choices are grayed out.
• Although the minimum time in cleaner is 30 minutes, you may leave the instrument in cleaner for up to 48 hours.
• If the instrument is left in Shutdown for 23 hours or more with the power ON, the system will automatically perform an Autopurge cycle which: o Brings up the compressor o Purges the flow cell and sample line with diluent o Turns OFF the compressor. This process repeats every 24 hours until you request a startup.
• If the system will be idle for more than 48 hours (e.g. from Friday afternoon to Monday morning) with the power OFF perform the Prolonged Shutdown procedure.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-65 of 68
• If the system will be idle for more than seven days, perform the Extended Shutdown procedure
• If the system will be idle for more than 30 days, contact your Beckman Coulter representative for specific instructions.
The following two procedures are for your information only. Do not perform them in the classroom at this time, but be familiar with them if they apply to your laboratory.
Open Help, find the Prolonged Shutdown and Extended Shutdown procedures. Print and read.
Proceed to the Skill Check for this module
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-66 of 68
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-67 of 68
SHUTDOWN
SKILL CHECK
1. What is the minimum time for the LH 500 Analyzer to be in shutdown every 24 hours? ___________________
2. At the end of the Shutdown time in the Clean cycle, what cycle does the LH 500 Analyzer perform automatically? ______________________________________________________________
3. What steps do you take if the Clean cycle is underway, and you get a STAT?
______________________________________________________________
4. What is the difference between the Shutdown cycle and the Clean cycle?
______________________________________________________________________________________________________________________________
5. How long can you leave the instrument in Shutdown? ___________________
6. If the instrument is left in Shutdown to 23 hours, what cycle occurs automatically? __________________________________________________
7. What are the conditions to perform the Prolonged Shutdown procedure?
_____________________________________________________________________________________________________________________________
8. What are the conditions to perform the Extended Shutdown procedure?
_____________________________________________________________________________________________________________________________
SD
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
B-68 of 68
PN 624762CA.1 (June 2012) Professional Development S-1 of 40@Beckman
Coulter
COULTER® LH 500 TRAINING MODULES
SETUP MODULES
This document is not intended to replace the information in your Instrument Instructions for
Use Manual (IFU). Information in the Instructions for Use Manual supersedes information in any other manual.
Implementation
Setup
Troubleshooting
Basics
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-2 of 40 @BeckmanCoulter
You will see the following symbols used throughout the learning modules. Important information you should know.
Techie-type information you may be interested in knowing.
Do these steps now!
Timely Tip
You reached the goal!
I do not understand…Questions Resources, Help
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-3 of 40@BeckmanCoulter
COURSE MAP - SETUP
Reagent Setup and Replacement
Setting Up Controls 1
Additional QC
Calibration
Begin Here
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-4 of 40 @BeckmanCoulter
PERSONAL PROGRESS SUMMARY Name_________________________
SetUp Modules Date Initial Facilitator
Reagent Setup and Replacement
Setting Up Controls 1
Additional QC
Calibration
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-5 of 40@BeckmanCoulter
REAGENT SET UP AND REPLACEMENT
OBJECTIVES Given a COULTER® LH 500 Workstation, access to HELP, and Handheld Barcode Scanner.
• Update the Reagent Setup screen in the LH Workstation (if necessary.) • Recognize instrument messages used for reagents. • Properly change a reagent container. • Properly replace a waste container.
Why Is It Important?
An up-to-date reagent setup screen shows that your laboratory is aware of good Quality Assurance procedures. Your LH Workstation makes the task of entering new reagents easy.
Resources
To complete this module you will need: • An Individual LH 500 Workstation with HELP and a Handheld Barcode
Scanner • New reagents
RSR
@BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-6 of 40 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-7 of 40@BeckmanCoulter
INFORMATION / PRACTICE SECTION The Reagent Data Entry screen shows the current reagent lot numbers in use on your instrument. In addition, this screen shows the unopened shelf-life expiration date (the date on the box) and the open container expiration date. When you make an entry in the Reagent Setup screen, there is also an entry made in the History Log Reagent tab that includes the date and time of the reagent change, along with the lot number and expiration date.
Reagent Data Entry Screen
These are the default open-expiration dates for Beckman Coulter reagents. The open expiration is the date to which an opened container may be used, based on the Date Opened.
The Shelf Life is the date to which an unopened container may be used.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-8 of 40 @BeckmanCoulter
Reagents Used on the LH 500 Series
Diluent The isotonic diluting fluid is LH Series Diluent (PN 8547194) CBC Lyse The CBC lysing fluid is LYSE® S III diff (PN 8546983, 1L;
8546796, 5L) Diff Pack The differential reagents are LH Series PAK (PN 8547195) Cleaner Pack The cleaning agent is COULTER CLENZ® (PN 8546931) Retic Prep Kit Reagent kit to prepare a sample for reticulocyte analysis is
Retic Prep Kit (PN 7546978)
Setting Up a New Reagent
Step Action
1
In HELP go to SEARCH
• Type reagent
• Click on
• Select Changing Reagent Information
• Click on
• Read the procedure
• Close HELP
2
On the instrument Workstation from the Command Center go to
(System Set Up)
(Quality Assurance Set Up)
The tab is the first tab on the QA Set Up window.
3 Select the button to setup new or modify existing reagents. The Reagent Setup window appears.
4 Enter the reagent information by using the handheld barcode scanner or manual entry of the barcode.
NOTE Press tab to move between fields for manual entry.
List Topics
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-9 of 40@BeckmanCoulter
5 Select (OK) to save and exit the Reagent Setup window.
6 Select in the Reagent Data Entry window to save the changes.
The reagent low message is also posted to the History Logs, Instrument tab.
NOTE: When the audible reagent alarm signals that a reagent container is out, you must replace the reagent container immediately. The Workstation automatically displays a red message box.
When you acknowledge this message by selecting OK, It closes the message and the traffic light returns to green.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-10 of 40 @BeckmanCoulter
The Workstation displays these messages for the reagent that is out:
CLENZ OUT
DILUENT OUT
LYSE OUT
PAK OUT
WASTE FULL (Only applies if you collect waste into a waste container.)
Steps to Change a Reagent Container
• Turn the compressor Off Switch to the Instrument Computer display by pressing the top button
(Position 1) on the switch box. From the Main Menu select Diagnostics Operator Options Fluidic Tests Compressor On/Off
Press Enter, then Spacebar, then Enter again.
• Open the new reagent container.
• Remove the pickup tube assembly from the old container and transfer it directly to the new container without touching anything. Tighten cap.
• Prime the Reagent From the Main Menu select Diluter Functions Prime Reagents Press Enter, select the reagent that was changed, press Enter
• Switch back to the Workstation display by pressing the bottom button on the switch box.
• Verify the Process and Run Type selections and press Start to continue running samples.
NOTE: If the lower part of the assembly touches you or anything outside the container, flood that lower part with distilled water then wipe it with lint-free tissue.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-11 of 40@BeckmanCoulter
Steps to Replace a Waste Container
If you collect instrument waste into a container, then you will need to follow these steps when you get a “Waste Full” message.
• Put the instrument into Standby Move the Standby/Reset switch to Standby (position O).
• Turn OFF the Main Power using the rocker switch on the back of the instrument.
• Replace the Waste Container Have an empty container ready. Using biohazard precautions, remove the waste assembly from the full container and transfer directly to the empty container.
Dispose of the biohazardous waste according to your laboratory’s protocol.
• Turn ON the Main Power • Put the instrument into Ready
Move the Standby/Reset switch back to Ready (position I). • Resume operation.
Proceed to the Skill Check. Be ready to show your facilitator the reagent log that you set up on an Individual Workstation. Remember that during class you are responsible for changing reagents and up-dating the reagent log on the LH 500 Workstation you are assigned to.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-12 of 40 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-13 of 40@BeckmanCoulter
REAGENT SET UP AND REPLACEMENT
SKILL CHECK
1. Demonstrate the steps to update the reagent information for a new container of reagent to your facilitator.
2. If you replace a reagent container, how do you Prime the reagent? _____________________________________________________________________________________________________________________________________________________________________________________________
3. When you replace a reagent container you must turn the _____________ Off.
4. When you replace a waste container, you must turn the ______________ Off.
RSR
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-14 of 40 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-15 of 40@BeckmanCoulter
SETTING UP CONTROLS 1
OBJECTIVES Given a COULTER® LH 500, access to HELP , control package inserts and diskettes
• Access the screen for setting up new control folders on the LH 500 Workstation
• Set up COULTER® LATRON™ Control folder using data from the assay sheet • Set up COULTER® 5C® Cell Control and COULTER® Retic-C™ Cell
Control folders • Explain how a lab might use Auto Transmit and Auto Stop features
Why Is It Important?
Proper and timely set up of control folders is the basis of a good lab QC program.
Resources
To complete this module you will need
• An Individual LH Workstation with HELP and access to the internet • LATRON assay sheet • 5C Cell Control assay sheet with 2D barcodes • Removable Media (CD, Flash drive)
SC1
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-16 of 40 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-17 of 40@BeckmanCoulter
INFORMATION / PRACTICE SECTION
Step Action
1
From the Command Center go to
[System Set Up]
[Quality Assurance Set Up]
(tab)
NOTE: The Enable 2-Page Run List Printouts option allows for printouts for the CD control in a larger font. When this is selected, the printout is two pages wide vs. one page wide. In either case, there may be multiple pages depending on the number of runs in the control folder.
2 Select [New Control Folder]
3
Choose the Type, Source, and Level of control folder you want to set up.
BCI – 5C – All Levels
BCI – Retic-C – All Levels
BCI – LATRON
4 Select [Set Up New Lot]
Set up New Control Folder
Line Select
Set up Lab Limits
Archive
Delete selected files
TransmitEdit values
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-18 of 40 @BeckmanCoulter
5
If you are setting up either 5C Cell Control or Retic-C Cell Control, follow directions on the pop-up window.
You may select to have the LH 500 Analyzer AutoStop when a control is out of limits.
If you select AutoStop, go to [Run Configuration] and also select AutoStop Criteria/ Controls.
You may select to AutoTransmit control results to a Laboratory Information System if the LIS has a QC package.
6 Select [OK]
7 When you are setting up LATRON, after selecting the button, you enter information from the package insert starting with Lot # and expiration date.
War
ning
Use the Tab key to move from field to field. If you press the “Enter” key, the screen will close. To continue, you need to select the Latron file from the control list by using the line select button and then select the Edit button.
You do not have to enter the (+/-) or (≤) signs when typing numbers.
8 Select [OK].
9 Select [Close] to close the Setup New Control Folder window.
10 Select [OK] to close the System Setup / Quality Assurance window.
Have you set up all required control folders? You should have four or seven control folders.
If YES, proceed to the Skill Check. Show a facilitator the control folders you have set up on your Individual LH Workstation. In addition, be able to tell a facilitator how the Auto Transmit and Auto Stop features work.
If NO, go back and set up the missing control folders.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-19 of 40@BeckmanCoulter
SETTING UP CONTROLS 1
SKILL CHECK
1. Show a facilitator the four or seven control folders you set up on your Individual Workstation.
2. How might a lab use the Auto Transmit feature?
_______________________________________________________________
3. How might a lab use the Auto Stop feature?
_______________________________________________________________
4. The facilitator will ask you to delete all the folders after they have been checked. Locate the delete button on the screen, but do not use it until the facilitator asks you. You may use Help to assist you if you don’t see it.
SC1
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-20 of 40 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-21 of 40@BeckmanCoulter
ADDITIONAL QC
OBJECTIVES Given an operating COULTER® LH 500 Workstation, access to HELP, and removable media
• Download control data for IQAP • Demonstrate how to set up and use lab limits
Why Is It Important?
Using the IQAP program gives your lab a means of peer review with other users of LH 500 systems.
Using lab limits allows your lab to more closely monitor control results and take quick action to correct out-of-limits situations.
Resources
• LH 500 Workstation with HELP • CD or flash drive • IQAP manual
QC2
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-22 of 40 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-23 of 40@BeckmanCoulter
INFORMATION / PRACTICE SECTION
IQAP Download Procedure
Step Action
1
In HELP go to Index
Type IQAP
Click on the topic Participating
Click on
2 Follow the IQAP Download Procedure. Select one control folder for downloading.
3 If there is a problem downloading QC data to your chosen removable media, refer to Troubleshooting in the above HELP topic.
5 Save your download for the skill check.
IQAP Submission
eIQAP
• Electronic uploading of your IQAP control data files from multiple media types via the internet is now possible using eIQAP.
• You must have an IQAP account set up first. Then you will be asked if you want to use eIQAP. To enroll in eIQAP, go to www. beckmancoulter.com/qap/index.jsp and select the Hematology tab and follow the instructions for registering and enrolling. If you have an IQAP participant ID, have that handy when you register. If you are not already enrolled in IQAP, it can be done as part of the eIQAP enrollment process.
• Once you have the removable media from the previous exercise, you will log in to the internet site for eIQAP and follow screen instructions to upload your data.
• The advantage to the internet upload is that you will have access to the pool data as soon as the minimum number of pool participants has been reached. You will access and print your own reports via a .pdf format. The internet site provides access to the download for Adobe® Acrobat® Reader™ if you do not have it already.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-24 of 40 @BeckmanCoulter
• Once you enroll all eligible hematology instruments in your laboratory, you access your data through your eIQAP account. Also, each institution can have multiple users each with either user or administrator access rights. The first user to enroll the institution will be given administrator access, but other users can also be administrators. Each institution must have at least one administrator.
Other IQAP Considerations
One of the features of the control file area is the Shift Clock, which allows data review by shift. If you do have multiple shifts set up, then you need to think about how you want to receive your IQAP reports.
• If you want to receive three separate reports, one for each shift, do nothing. Your current setup will provide that.
• If you want to receive one overall report, then you need to change the system setup, before you download:
Go to System Setup, Quality Assurance Setup, select the Shifts tab.
Deselect the Multiple Shifts checkbox (you will see the shift times disappear). Select OK to save.
Now do your IQAP download as described in the section above.
After the download, go back to System Setup, Quality Assurance Setup, Shifts tab and select the Multiple Shifts checkbox. The shift times will reappear. Select OK to save.
• The 5C Cell Control requires monthly downloads as soon after the expiration date as possible or when you have stopped running it. Remember that if there are fewer than 10 runs, you will receive a report, but your data is not included in the pool. This may affect some shifts more than others.
• In general, Retic-C is not run as often as 5C and may run into the problem of not enough data, especially if submitted by shift.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-25 of 40@BeckmanCoulter
Setting Up Lab Limits
Use your instrument Workstation for this part of the module.
Step Action
1
At the instrument Workstation, from the Command Center, go to
(System Set Up)
(Quality Assurance Set Up)
2 Use the line select button to highlight the 5C Normal control folder
3 Select (Setup Lab Limits) button.
Enter lab limits as given below. (These limits are used for classroom purposes only. You may wish to establish different limits in your laboratory.)
WBC 0.5 MCH 1.2 PLT 25 RBC 0.15 MCHC 1.7 MPV 2.0 HGB 0.6 RDW 1.5 HCT 2.5 MCV 3.0
4
5 Click on (OK) to save.
6 Click on again to close the System Setup [Quality Assurance] window.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-26 of 40 @BeckmanCoulter
Step Action
7
Select
On the Control Tree
Open the 5C folder
Open the 5C Normal folder.
8
On the screen to the left of the cumulative results are two buttons:
Lets you replace the Lets you restore the assigned manufacturer values with values and the means of your own expected ranges from control runs. the control package insert.
Note If the buttons are grayed out, verify that there are at least five runs in the file (this is the minimum required before the buttons become active), if there are at least five runs and the buttons are still inactive then log off the Workstation and log on again.
Toggle these buttons now to see how they work. Also notice that the points on the thumbnail (and full-page) graphs move as the changes take place.
If you can download control data for IQAP and use lab limits, you are ready to do the Skill Check for this module. A facilitator will check your removable media for the IQAP file.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-27 of 40@BeckmanCoulter
ADDITIONAL QC
SKILL CHECK
Give a facilitator the removable media you used to download IQAP data.
Answer the following questions:
1. Does downloading your IQAP data, cause your Workstation data to be deleted?
Yes
No
2. On your instrument Workstation, show your facilitator the lab limits you set up for 5C Cell Control / Normal.
3. In , go to the 5C Normal control folder, and demonstrate to your facilitator that you can switch between and
4. Why is it important to set up your own lab limits? _______________________________________________________________
QC2
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-28 of 40 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-29 of 40@BeckmanCoulter
CAL CALIBRATION
OBJECTIVES Given an operating COULTER LH 500 and access to HELP
• Perform calibration of an LH 500 Analyzer using COULTER S-CAL® Calibration Kit
• Adjust calibration factors as required by the calibration results • Identify when you should calibrate your instrument • Identify when you should verify calibration of your instrument
Why Is It Important?
Calibration fine-tunes the LH 500 to give the most accurate results possible.
Resources
To complete this module you will need
• LH 500 Analyzer • LH Workstation with HELP • One vial of COULTER S-CAL from the Calibration Kit • One tube of EDTA blood • S-CAL assay sheet (included in S-CAL package) with 2D barcode • S-CAL Instructions for Use (see facilitator for a copy)
NOTE: The procedure in this module is adapted from HELP. Some steps may apply particularly to the classroom situation and not necessarily to your lab.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-30 of 40 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-31 of 40@BeckmanCoulter
INFORMATION / PRACTICE SECTION The S-CAL calibration for CBC parameters must be performed by your laboratory after installation. Thereafter, you must follow your own laboratory, local or national regulations as to frequency of calibration.
Sometimes components involving dilution characteristics or primary measurements need to be replaced. After the replacement of any component that involves dilution characteristics (such as a BSV) or primary measurement (such as an aperture), your service engineer will perform a “rough” calibration afterward using your current controls to allow instrument operation to continue. Keep in mind that a new component should be given several days to “break-in” or settle before performing the verification. An S-CAL verification should be performed within several days to a week to verify cal factors.
Calibrating CBC Parameters with S-CAL Calibrator
Use the on-line HELP system to find the topic, “Calibrating CBC Parameters with S-CAL Calibrator”. You will see that there are nine main steps to complete calibration on the instrument. Note that each of the nine steps are linked via hypertext to the details for that step.
1. Ensure the Apertures are Clean
If you routinely shut down the instrument for at least 30 minutes every 24 hours in COULTER Clenz, and the instrument is currently in Shutdown, cleaning is unnecessary.
If you routinely use COULTER Clenz, but you are beginning calibration after processing patient samples, perform a shutdown for 30 minutes before proceeding. You could use the Clean Cycle if you wish. (You will not need to do this in the classroom.)
If you do not routinely use COULTER Clenz, then you must bleach the apertures before proceeding with calibration. Follow the HELP link if this is the case. (You will not need to do this in the classroom.)
CAUTION Possible flow cell damage could occur if you aspirate bleach. Do Not Aspirate Bleach.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-32 of 40 @BeckmanCoulter
2. Verify Instrument Functions Properly
Step Action
1
Check the reagent containers for:
• Sufficient quantity
For your lab: diluent container approximately 1/2 to 2/3 full; CBC lytic reagent at least ¼ full – 1L or 5L
Check with an instructor before changing any classroom reagents
• Not beyond expiration date
• No precipitates, turbidity, particulate matter, or unusual color
• Proper connections between the Diluter and the reagent containers
2 Check the waste container (if present) for:
• Sufficient capacity
• Proper connections
3 Perform Startup. (This is not necessary for class purposes, if Startup has already been performed.)
4 For class purposes: (not necessary if already run)
Run COULTER LATRON™ Primer and Control and COULTER 5C® Cell Control. Confirm that results are within limits.
Note: Both the Reproducibility and Carryover procedures may be a requirement of regulatory agencies. It is no longer required to perform these procedures prior to calibration; however, it is good lab practice to do so. Use these procedures at any time to verify instrument performance. Refer to the Performance Specifications in HELP for the results criteria.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-33 of 40@BeckmanCoulter
3. Prepare Instrument for Calibration
NOTE: Room temperature should be stable and within the normal ambient temperature range. If the average ambient room temperature changes more than +/- 10o F from the calibrating temperature, verify calibration and recalibrate (if necessary).
Step Action
1 Ask an instructor for a vial of S-CAL. Allow it to warm up at room temperature for 15 minutes before using. (See Instructions for Use for details. IFUs can be found on the BCI website.)
2 On the Workstation Command Center, ensure the blood detector is enabled (checked).
3 Set the Process Type to Auto Analysis.
4 Set the Run Type to C
5 Set the number of aspirations per tube to 1.
6 Select Start
7 Cycle a sample of normal whole blood in automatic aspiration mode as a prime.
8 Select Stop
9 Change the number of aspirations per tube to 11.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-34 of 40 @BeckmanCoulter
4. Calibration Set Up at the Workstation
Step ACTION
1 At the INSTRUMENT Workstation Command Center, select CALIBRATION in the Process Type drop-down box.
2 Go to on the Command Center then select (CBC Calibration) on the Common Toolbar.
3 The background color of the Calibration window changes to the same background color as the Command Center when you change Process Type to CALIBRATION.
Note Forgetting to do this is a very common error. If you forget to change the process type to CALIBRATION, all S-CAL runs will be analyzed as patient samples and there will be NO data in the calibration table.
4 If necessary, select (Clear table) to clear old calibration runs from the database. The values on the table change to 0.00 except for Old Cal Factor.
5 On the specific toolbar, select (Calibration Setup) to display the Instrument Calibration Setup window.
6 Select (Load S-Cal values). Scan the 2D-barcode for your instrument (LH 500) on the S-CAL assay sheet to load the reference values, lot number and expiration date. Ensure that you select the assay values for the reagents on your instrument.
7 Print the Instrument Calibration Setup window. Mark it “pre-cal”. Save it for the Skill Check.
8 Select on the Instrument Calibration Setup window.
9 On the CALIBRATION screen, check the Lot # box (on the left side of the screen) for the Lot # you just set up. If the Lot # is incorrect, use the drop-down box to select the correct Lot #. The Lot# is the 4 digit number on the S-Cal vial.
NOTE: If your instrument does not have a 2D-barcode scanner, please refer to the next section on Downloading Using Removable Media (next page). In class we will use the 2D-barcode scanner.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-35 of 40@BeckmanCoulter
5. Run S-CAL Calibrator
Step Action
1 Prepare the S-CAL calibrator vial according to the Instructions for Use. (Two sets of 8x8x8, just like the 5C Cell Control). It is very important to follow the mixing directions carefully.
2 Verify the number of aspirations is 11. (One vial of S-CAL is sufficient for 11 aspirations.)
3 At this point, ensure that the blood dectectors are enabled, CALIBRATION is chosen in the Process Type box on the Command Center and the current S-CAL lot # is in the drop down box on the calibration table window.
4 Place the S-CAL vial into a cassette, and place the cassette in the right loading bay on the Diluter.
5 Select Start
6 Automatic processing of the cassette begins. The Workstation automatically deselects the results from the first run because those results are used as a prime.
NOTE: Calibration runs will be rejected if the calibrator information has not been set up, or if the calibrator is expired. If expired, the Expiration field will be backlit in RED with the message “Calibrator expired. No statistics will be calculated.” appears in the task bar.
IMPORTANT Misleading results could occur if you fail to perform the calibration procedure within 1 hour of opening the S-CAL calibrator vials. Follow the instructions in the S-CAL calibrator Instructions for Use.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-36 of 40 @BeckmanCoulter
6. Review Results On The Calibration Window
• The Workstation checks the FAC% Diff and DELTA Diff. The Workstation automatically selects the parameters that need adjustment and indicates results that meet the calibration criteria with a yellow background. If you do not want to adjust a selected parameter, deselect the check box .
• On the CALIBRATION screen, inspect the calibration results table for trending. The parameter results must not show a trend.
• If the results show trending, there could be an instrument problem; call your Beckman Coulter representative. Do not continue.
• With the following in mind, use the calibration statistics to determine if you should transmit new calibration factors to the Analyzer.
IMPORTANT
Misleading results could occur if you transmit calibration factors that are outside the established limits. If results are outside the limits, call your
Beckman Coulter representative.
• The Workstation checks the results for precision (%CV within the established limits; the same limits as used for Reproducibility.)
• The Workstation flags results outside the limits with a RED background (%CV, FAC % Diff and Delta Diff).
• If you choose to transmit calibration factors other than those selected by the Workstation – either outside the limits or factors that have verified – a message appears indicating a “Calibration Criteria Violation”. You must confirm that you want to transmit the calibration factors. Once you confirm the transmission, the Workstation transmits the calibration factors and posts a message to the Calibration history log.
IMPORTANT Misleading results could occur if you calibrate MCV when the RBC FAC%
Diff is out of range because MCV depends on RBC. Do not calibrate MCV if the RBC FAC% Diff is out of range.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-37 of 40@BeckmanCoulter
CALIBRATION CRITERIA TABLE (This table is provided for your information only.
The workstation makes these calculations and decisions for you).
Parameter Precision (%CV)
Acceptable Fac%Diff
Cal if Fac%Diff is
Cal if Delta Diff is
WBC CV ≤2.5% ≤5.0% >1.25% BUT ≤5.0% >0.1 BUT ≤0.4 RBC CV ≤0.8% ≤2.0% >0.7% BUT ≤2.0% >0.03 BUT ≤0.09 Hgb CV ≤0.8% ≤3.0% >0.78% BUT ≤3.0% >0.1 BUT ≤0.4 MCV CV ≤0.8% ≤2.5% >1.18% BUT ≤2.5% >1.0 BUT ≤2.0 Plt CV ≤3.2% ≤9.0% >2.70% BUT ≤9.0% >6.0 BUT ≤20.0
MPV CV ≤5.0% ≤20.0% >5.0% BUT ≤20.0% >0.5 BUT ≤2.0
7. Adjust Calibration Factors As Needed
Step Action
1 Are any boxes checked ? If Yes, then parameter(s) need to be calibrated. If No, contact the facilitator before proceeding.
2
On the Workstation CALIBRATION screen, select (Adjust Calibration) on the Specific Toolbar.
The Adjust Calibration button is active only after the Workstation receives ten (10) valid calibration results. After calibration factors have been adjusted, the Adjust Calibration button is grayed out.
4 Select to print the calibration runs for your logbook in your lab. Save it for the Skill Check in class.
Don’t do this next step until the skill check, when the facilitator is present.
5
After printing the Calibration Run Screen, make sure that you clear
the screen to prevent recalculation of calibration factors that were changed. This happens when you exit this screen and come back to it at a later time.
6 Select (Calibration Setup) to display the Instrument Calibration Setup window and reprint this window. Mark it “post-cal” and save for your Skill Check.
• Are all parameters within limits? Are any boxes checked ?
• If No, then no further action is necessary. Calibration is verified.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-38 of 40 @BeckmanCoulter
7 On the Command Center, set Process Type back to Auto Analysis and at the #aspirations/tube back to ONE.
8 Verify calibration factor changes by cycling each level of COULTER 5C Cell Control in the Automatic aspiration mode.
Note For this classroom exercise, it is not necessary to perform this verification. Be sure to do this in your own laboratory.
If you run S-CAL calibrator and change at least one parameter to a new cal factor, you have calibrated that parameter. You verify by running 5C Cell
Controls. If you run S-CAL calibrator and make no changes to any cal factors, you have verified the current cal factors. No other verification is necessary.
Calibrate or Verify Calibration?
Step Action
1 From the CALIBRATION screen, select on the Common Toolbar.
2 Click on the Index tab.
3 Type calibration.
4 From the list on the left, select the topic: Calibration Overview.
5 Review the information about When to Calibrate to discuss as part of the Skill Check for this module.
Now that you have completed the calibration process, take a look at the summarized procedure in the Easy Reference Guide.
This provides a short summary of the steps of calibration without all the details. You may use this summary in your lab. Remember that you may always refer back to the online HELP procedure or to this module for the details.
Proceed to the Skill Check for this module and keep the following with you:
Calibration Set Up (one before running S-CAL (pre-cal) and one after transmitting new Cal factors (post-cal)) and Calibration Run screen printouts (three total)
Calibration overview printout
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-39 of 40@BeckmanCoulter
CALIBRATION
SKILL CHECK
1. At your instrument, demonstrate to your facilitator how to automatically
transmit calibration factors from the Workstation to the Analyzer.
2. Show the three calibration printouts (Calibration Table and two Calibration Set Up screens-“pre-cal” and “post-cal”) to your facilitator.
Answer the following questions. Circle the letter of the correct answer(s).
1. You should calibrate your COULTER® LH 500: a. Monthly
b. At installation
c. After replacing the Blood Sampling Valve
d. a and c are correct
e. b and c are correct
f. a and b are correct
2. Choose all of the valid reasons to run S-CAL calibrator to verify calibration settings? (See Calibration Overview in help.)
a. Controls show unusual trending
b. On the Calibration Table a parameter checkbox is selected.
c. Ambient room temperature changes by more than +/- 10oF from calibrating temperature
d. According to your laboratory or regulatory agency specifications
3. What parameters are calibrated on the LH 500 Analyzer?
a. CBC and Diff
b. CBC
c. CBC, Diff and Retic
d. CBC and Retic
Have the facilitator show you how to and why to clear the calibration table.
CAL
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
S-40 of 40 @BeckmanCoulter
PN 624762 CA.1 (June 2012) Professional Development
TB-1 of 74 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
TROUBLESHOOTING MODULES
This document is not intended to replace the information in your Instrument Instructions for
Use Manual (IFU). Information in the Instructions for Use Manual supersedes information in any other manual.
Implementation
Setup
Troubleshooting
Basics
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-2 of 74 @BeckmanCoulter
You will see the following symbols used throughout the learning modules. Important information you should know.
Techie-type information you may be interested in knowing.
Do these steps now!
Timely Tip
You reached the goal!
I do not understand…Questions Resources, Help
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-3 of 74@BeckmanCoulter
COURSE MAP - TROUBLESHOOTING
History Logs
Sample Flow
Replacing Components
Troubleshooting Basics
Begin Here
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-4 of 74 @BeckmanCoulter
PERSONAL PROGRESS SUMMARY Name_________________________
Troubleshooting Modules Date Initial Facilitator
History Logs
Sample Flow
Replacing Components
Troubleshooting Basics
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-5 of 74@BeckmanCoulter
HISTORY LOGS
OBJECTIVES Given an operating COULTER® LH 500 Workstation, and access to HELP, perform these procedures:
• Access the History Logs from the Command Center • Add a comment to a History Log entry • Access detailed descriptions and corrective actions for messages • Print a History Log • Archive a History Log (optional)
Why Is It Important?
History Logs provide ongoing on-line documentation of instrument messages, reagent and control updating, as well as other information about your LH 500. History Logs eliminate the need for a handwritten “Action Log”, since all data can be printed and/or archived for permanent storage.
Resources
To complete this module you will need
• LH 500 Workstation with access to HELP • Printer • CD or Flash Drive
HL
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-6 of 74 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-7 of 74@BeckmanCoulter
INFORMATION / PRACTICE SECTION
Step Action
1 From the Command Center, go to (History Logs).
Each History Log has its own tab. The Event Log has general instrument messages. Other Logs such as Instrument, Daily Checks, Control Data, etc. contain more specific information. Messages are listed with the most recent first on the list.
Each log may have 2500 entries, then it “rolls over” (First in, First out).
2 From the History Logs window, select HELP.
3 Find and Read the topic, Working with Electronic History Logbooks, as well as the data from the “add comments to a logbook” (hyperlink)
4 Close HELP.
Use the LH Workstation at your instrument for the Practice part of this module.
Practice
Adding a Comment
Step Action
1 Select any History Log, using the tab. Which tab did you choose? __________________________________
2 Click on the date of the entry for which you want to make a comment.
3 Click on the (Add/Edit Comment) button.
4 Type a comment in the field provided (up to 256 characters).
5 Select . The comment is stored and displayed with the selected message.
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-8 of 74 @BeckmanCoulter
Printing from a History Log
Step Action
1 Select the Calibration History Log.
2 Select the Print button.
3 Choose Selected Category.
4 Choose By Date:.
5 Enter the date two months ago in
the From box and today’s date
in the To box.
6 Select .
7 Save the printout for the Skill Check.
Deleting
Note
It is not necessary to delete to make room in the history log. Each tab in the history log holds 2500 entries, then it “rolls”. The oldest entry is deleted and the most recent is added (first in, first out). It is not recommended to delete any entries in the history log as the information in this section may help when troubleshooting.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-9 of 74@BeckmanCoulter
Archiving (Optional Exercise) Archive Using Removable Media (CD-ROM or Flash Drive) Step Action
1 Select any History Log.
2 Select the [Archive Result(s)]
button.
3 Choose the Selected Category radio
button. You can specify by date if you
wish. Click on the OK button.
4 A Save As box appears with the message “A:/ is not accessible. The folder was moved or removed”. Click on Okay.
5 Another Save As box appears. Place your removable media into the appropiate drive.
6 In the Save As box, specify the drive where you want to archive the information.
7 Type in the file name or use the suggested name which is the current date and then click on Save. Close the History Logs Viewer window
8 If using using a CD-ROM, press the eject button on the CD drive on the Workstation computer. A “Drag-to-Disc” dialog box with the message “Failed to Rename disc” appears. Choose OK.
9 A “Drag-to- Disc Eject Options” dialog box opens. Select “This disc will be used on other computers or devices.” Keep enabled the “Always show this dialog when ejecting a disc.” Then choose the Eject button.
10 Another “Drag-to-Disc” box with a progress bar opens. Wait for it to become 100% complete. The CD drive will eject the CD.
Save your archive for the skill check.
If you can perform all the operations from the Practice part of the module, collect your data and printouts and proceed to the Skill Check.
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-10 of 74 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-11 of 74@BeckmanCoulter
HISTORY LOGS
SKILL CHECK
Collect the media you used for archiving, as well as the required printouts.
1. Show a facilitator:
A printed History Log of your choice.
2. At your instrument Workstation:
Show a facilitator the History Log message to which you added a comment.
HL
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-12 of 74 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-13 of 74@BeckmanCoulter
SAMPLE FLOW
OBJECTIVES Given an operating COULTER® LH 500, Summary Sheet diagrams, blood sample, and access to HELP .
• Locate and name major Diluter components, using no references • List the constituents of WBC and RBC/Plt, dilutions, using references • State the four constants and one variable used for the COULTER Principle,
using references • State the importance of sweep flow and mixing bubbles, using references • State the purpose of cross-rinse at the end of an instrument cycle, using
references
Why Is It Important?
Knowing component names and locations as well as their functions is important when you are troubleshooting. Also knowing what happens when a component does not work helps you to troubleshoot. Using the HELP system as a primary resource can help you solve problems.
Resources
• LH 500 Analyzer
• LH 500 Workstation with HELP
Reference Information / Operation Principles
Identifying System Components
• Summary Sheets: Diluter diagrams A thru J (laminated sheets)
• “Sample” to run, and magnet from facilitator • Component table with instrument "pieces and parts"
Self-Check
As you complete this module, you will find Self Checks along the way. There is an Answer Key on page TB-39 of 74.
SF
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-14 of 74 @BeckmanCoulter
SET UP
When operating the LH 500 Analyzer in your laboratory you must follow the warning shown below. For training purposes, your facilitator will place a magnet on your instrument to defeat the door interlock. You may then run the instrument with the front door open.
WARNING Keep the front door of the LH 500 Analyzer closed while you use the Automatic aspiration mode. The system will stop if you remove the needle shield.
Step Action
• Complete this module with a partner, if possible. • Review the module thoroughly before you begin. • Be sure to wear full-face protection (either a full-face shield
OR protective eyewear with a facemask) along with lab coat and gloves.
1 At the Command Center, select Run Type C and verify the number of aspirations per tube is 2.
2 At the Command Center, go to
Set Automatic Output / Print to DISABLED
3 Open the front door panel by pulling towards you from the right side.
4
Remove the needle shield.
Loosen the screws on either side of the needle shield and then remove. Ask facilitator for help if needed.
Ask facilitator to place the magent.
5 Open the right side door pulling from the left.
6 For cycling the LH 500 Analyzer, use the tube provided by a facilitator.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-15 of 74@BeckmanCoulter
INFORMATION / PRACTICE SECTION
Module and Component Identification
The LH 500 consists of ten modules which contain the components to analyze samples. The ten modules are:
• Analyzer Module
Contains the various circuit boards needed to operate the instrument.
• Electronic Power Supply
Supplies the necessary electrical power for all instrument operations.
• Pneumatic Power Supply
Houses the compressor that provides the vacuums and pressures used in the instrument.
• CBC Module
Contains all the components necessary for CBC Analysis.
• BSV (Blood Sampling Valve) Module
Contains the components associated with aspirating blood samples.
• Pump Module
Contains the two Erythrolyse™ II (Diff Lytic) reagent pumps needed for differential analysis.
• Autoloader Module
Contains the robotic mechanisms to move the cassettes from the loading bay to the piercing station and then to the unloading bay.
• Mixing Module
Contains the components associated with WBC differential analysis
• Flow Cell Module
Contains the components used to perform VCS analysis.
• Main Diluter Module
Contains various components relating to sample dilution and cycling as well as vacuum and pressure regulators.
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-16 of 74 @BeckmanCoulter
Modules Located in the Front (Diagram A)
Analyzer Module
CBC Module*
Electronic Power Supply BSV Module
Autoloader Module
Pump Module
Pull open the front door of the instrument. It opens from the right.
• Analyzer Module
• Electronic Power Supply
• Autoloader Module – with Needle Shield removed
• CBC Module
• BSV Module
• Pump Module
C a p t i v e S c r e w s
N e e d l e S h i e l d
* The appearance of some parts may be different on your instrument.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-17 of 74@BeckmanCoulter
Modules Located on the Back (Diagram B)
Fans
Power ON/OFF rocker switch
Plugs for computer
Pneumatic Power Supply
Reagent manifold and connectors
Go around to the back of the instrument.
• Pneumatic Power Supply
• Main Power ON/OFF rocker switch
• Reagent manifold and connectors
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-18 of 74 @BeckmanCoulter
Modules Located on the Right Side (Diagram C)
Main Diluter Module
Mixing Module
Flow Cell Module
Pull open the right side door. It opens from the left.
• Main Diluter Module
• Mixing Module
• Flow Cell Module
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-19 of 74@BeckmanCoulter
Analyzer Module (Diagram A)
Analyzer Module
The Analyzer Module contains the various circuit boards needed to operate the instrument.
• The various boards are responsible for controlling
The timing and sequencing of the operating cycles Receiving pulses and raw data from both the CBC and Flow Cell Modules Counting measuring and computing CBC parameter results Sending final CBC parameter results and VCS data to the Workstation.
Electronic Power Supply (Diagram A)
Electronic Power Supply
The Electronic Power Supply provides both AC Power and DC Power to various components to provide for instrument operation.
Pneumatic Power Supply (Diagram B)
Pneumatic Power Supply
The compressor/vacuum pump produces one service adjustable level of air pressure (60 psi) and one nonadjustable level of vacuum (>22”Hg).
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-20 of 74 @BeckmanCoulter
Autoloader Module (Diagram D)
Locate the following components using your laminated sheets as a reference. Rotate the rocker bed forward (push down on the front).
• Load Stack Empty sensor • Load Gate • Position detect sensors • Load Elevator • Tube Available sensor • Tube Forward sensor • Needle Assembly • Unload Elevator • Unload Gate • Unload Stack Full sensor
CBC Module (Diagram E)
Locate the following components using your laminated sheets as a reference:
• RBC vacuum isolator chamber (The appearance of some parts may be different on your instrument.)
• WBC vacuum isolator chamber • CBC Lytic reagent pumps (two pumps, 1.0 mL total) • Waste chamber • RBC aperture bath • WBC aperture bath • Overflow chamber • Hemoglobin Lamp • Hemoglobin pre-amp
BSV Module (Diagram F)
Locate the following components using your laminated sheets as a reference:
• Bubble-maker pinch valves • Sheath Tank • Air Pump • Automatic mode aspiration pump • Manual mode aspiration pump • Front blood detector • Rear blood detector • Blood Sampling Valve (BSV)
Pump Module (Diagram G)
Locate the two Erythrolyse II reagent pumps using your laminated sheets as a reference.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-21 of 74@BeckmanCoulter
Mixing Module (Diagram H)
Locate the following components using your laminated sheets as a reference:
• Mixing chamber • StabilLyse pump
Flow Cell Module (Diagram I)
Locate the position of the Flow Cell Module using your laminated sheets as a reference. Also look at the following parts on the component table:
• Flow cell • Laser • Light scatter detector • Connectors for DC and RF signals • VCS electronics • Laser on indicator
Main Diluter Module (Diagram J)
Locate the following components using your laminated sheets as a reference:
• WBC diluent dispense pump • RBC diluent dispense pump • Vacuum trap • Sample pressure regulator • Sheath pressure regulator • Backwash pump • 30 psi regulator • Low vacuum regulator • Solenoids
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-22 of 74 @BeckmanCoulter
AUTOMATIC MODE
Transport
Tube forward sensor
Unload elevator
Position detect sensors
Unload gate
Unload stack full sensor
Load stack empty sensor
Load gate
Position detect sensors
Load elevator
Tube available sensor
Needle assembly
Bar Code
Tube Ram
Observations
At the Autoloader Module, look at the sample cassette loading bay to the right.
Find the Load stack empty sensor. This is a cone-shaped, spring-loaded sensor that detects when a cassette is placed on the Load gate. This activates the Load elevator to move up to the waiting cassette.
Find the load gates. The load gates are located on each side of the cassette. The cassette rests on the load gate before the cassettes move to the rocker bed. When the load elevator moves up to pick up the waiting cassette, it pushes the load gate in. After the cassette moves down, the load gate springs out.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-23 of 74@BeckmanCoulter
Look at the rocker bed. Find the load elevator.
The load elevator moves through an opening in the rocker bed to pick up a sample cassette from the loading area.
Find the tube available sensor. It is a cone-shaped, spring-loaded sensor located near the center of the rocker bed. When the sensor detects a tube in a cassette, the cassette locks in place.
Find the tube ram and the tube forward sensor.
The tube ram is a silver cylinder located underneath the bar code reader. Once the cassette locks in place, the rocker bed tilts to the forward position and the tube ram pushes the tube down. When the tube forward sensor activates, the needle is pushed up piercing the stopper.
Find the position detect sensors behind the unload elevator.
When the sample cassette activates these switches, it signals the unload elevator to raise the cassette to the unload gates.
Find the unload stack full sensor.
It is a cone-shaped, spring-loaded sensor located on the right side of the unload bay. When there are five cassettes in the unload bay, the unload stack full sensor generates and error message reminding the operator to remove cassettes from the unload bay.
Activity
1. Put the sample tube provided into a cassette and place in the right loading bay.
2. Observe cassette transport.
Self Check
1. How does the instrument know that a cassette is waiting to process?
______________________________________________________________
2. What component causes the cassette to lock into position?
______________________________________________________________
3. What is the function of the tube ram?
______________________________________________________________
When you finish the Self Check for each section, check your answers with the Answer key on page TB-39 of 74.
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-24 of 74 @BeckmanCoulter
Automatic Mode Aspiration
Automatic mode aspiration pump
Front blood detector
Bubble-maker pinch valves (2)
Blood detectors
Aspiration line
Observations
In the automatic mode, the automatic mode aspiration pump draws a maximum of 185 μL of sample through the needle, front blood detector, Blood Sampling Valve, and the rear blood detector.
Locate the automatic mode aspiration pump (PM 4).
Locate the BSV
Locate the Front and Rear Blood Detectors
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-25 of 74@BeckmanCoulter
Locate the needle assembly. The needle is contained within a bellows and has
two openings near the piercing tip:
One for aspiration on the bottom side One for venting on the top side.
Piercing needle Vent
Sample aspiration (and backwash)
Front support
Bellows
Vent line (and rinse)
Aspiration line (and backwash)
Waste line
The venting pathway in the needle equilibrates the tube contents to atmospheric pressure. If this is not done and there is residual vacuum in the sample tube, it could cause aspiration errors. This pathway is then rinsed with diluent and dried by high vacuum, preventing carryover to the next sample.
The aspiration port opens a pathway so that vacuum applied by the automatic mode aspiration pump can pull a sample of whole blood from the specimen tube through the BSV and blood detectors.
Examine the needle more closely at the component table in the lab.
The blood travels from the base of the needle through a small black box (front blood detector) to the Blood Sampling Valve (BSV) and then to the rear blood detector. Locate this pathway on your instrument.
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-26 of 74 @BeckmanCoulter
Aspiration
28 μL diff loop
1.6 μL RBC 28 μL WBC loop
From the BSV the blood continues to the rear blood detector. When the center
section of the BSV rotates the blood segments in the BSV into three portions (one for RBC/Plt, one for WBC/Hgb and the third for the Diff).
Summarized Steps of Automatic Mode Aspiration • The instrument puts the tube into the piercing position. • The bubble-maker pinch valves activate and pinch the tubing of the aspiration
pathway, thus expelling a drop of diluent from the tip of the needle. • The bubble-maker pinch valves deactivate and an air bubble forms in the tip
of the needle. • The needle pierces the tube stopper and the automatic mode aspiration pump
aspirates 185 μL of sample from the tube. The diluent that was in the line, followed by the bubble and the blood segment is pulled by a vacuum created by the aspiration pump. A diluent-bubble-blood interface can be observed.
• The needle retracts from the tube. • Vacuum pulls the blood segment through the front blood detector, the BSV
and the rear blood detector. • As the vacuum equalizes the diluent-bubble blood moves through and stops
outside of the rear blood detector. • The blood segment is now in the correct position for the blood detectors to
assess the quality of the aspiration and determine if the aspirated blood is acceptable.
Activity 1. Put the sample tube provided into a cassette and place in the right loading bay.
2. Observe sample aspiration. Look for the diluent-bubble-blood interface.
Self Check 1. State one problem that could result from a plugged needle vent.
___________________________________________________________ 2. What is the aspiration volume for the automatic mode? _______________
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-27 of 74@BeckmanCoulter
Sample Delivery
During aspiration, the aperture baths, containing diluent rinse from the last cycle, drain to the waste chamber. This prepares the baths for the new sample dilutions.
Draining the Baths
Check Valves
Waste Chamber
FF5FF3
FF19 FF21 FF20
PV5 PV6
Locate the drain line at the bottom of each aperture bath
Trace the lines through PV (pinch valve) 5 and PV 6 to the flow fittings (FF) on the back panel (FF19 and FF21)
The pathway continues in back of the CBC Module and up to the top where the lines come back out through FF3 and FF5 which are located above the waste chamber.
Locate FF3 and FF5
Follow the tubing to the waste chamber. Note the check valve present in each tubing.
Activity
1. Run a sample and observe the bath draining process
The appearance of some parts may be different on your instrument.
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-28 of 74 @BeckmanCoulter
Preparing the CBC Sample
Air pump for diff transfer to sample line
Diluent from RBC and WBC diluent dispensers
3
1
2
1. The center section of the BSV rotates to segment three portions of the sample:
1.6 μL for the RBC bath dilution 28.0 μL for the WBC bath dilution 28.0 μL for the Diff dilution
2. The air pump (PM 3)transfers the Diff portion to a sample line just outside (and behind) the BSV.
3. The RBC (PM 11) and WBC (PM 9) diluent dispensers send diluent through the BSV to pick up, dilute and deliver the RBC and WBC segments of blood.
Locate the RBC and WBC dispensers in the Main Diluter.
Diluent inDiluent in
BSV (CBC Delivery)
To WBC bath
To RBC bath
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-29 of 74@BeckmanCoulter
Dilution entry ports
Mixing bubble entry
CBC lytic reagent pumps
4 6
5
4. The dilutions are delivered to the aperture baths through the inlet ports on the
upper right of each bath.
RBC/Plt – 10 mL diluent (from RBC diluent dispenser) plus 1.6 μL blood WBC/Hgb – 6 mL diluent (from WBC diluent dispenser) plus 28.0 μL blood plus 1.0 mL cbc lytic reagent
5. The CBC lytic reagent pumps (PM 1 and PM 2)send lytic reagent to join the WBC dilution on its way to the WBC bath.
This line runs behind the CBC Module. If you begin at the WBC inlet port, follow it back to FF27, find the back side of it and then trace about two inches to a Y-fitting, you will see the smaller diameter tube that comes from the CBC lytic pumps.
The WBC/Hgb dilution starts as a cloudy red but becomes a clear red once the lytic reagent reacts with the blood.
6. Mixing bubbles enter both baths from the bottom left port as several bursts of bubbles.
The mixing bubbles provide complete mixing of the dilutions ensuring reproducible results.
Find the rocket-shaped check valve in the mixing bubble line The check valve is a one-way valve. It lets each aperture bath receive
bubbles of gentle pressure (5 psi)
Go to the Component Table in the lab to look at an aperture bath, diluent dispenser, a CBC lytic reagent pump and check valves, both small and large.
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-30 of 74 @BeckmanCoulter
Activity
1. Cycle the blood sample.
Watch for: BSV Rotating Diluent dispensers making an upstroke. WBC bath for addition of CBC lytic reagent and subsequent clearing of the dilution. (FYI-you can’t really see lytic reagent entering the bath since it happens while the diluent and blood are being delivered. All you can see are the effects.)
Mixing bubble bursts
Self Check
1. Complete the statements about each aperture bath dilution.
The RBC/Plt dilution is made up of: ________________ μL blood ________________ mL diluent
The WBC/Hgb dilution is made up of: ________________ μL blood ________________ mL diluent ________________ mL CBC lytic reagent
2. How can you visually tell that lytic reagent has been added to the WBC aperture bath? __________________________________________________
3. How could results be affected if no mixing bubbles enter the aperture baths?
______________________________________________________________
CBC Sensing System
Each aperture bath has one aperture. Triplicate counting and sizing of cells takes place each time a sample processes, in the form of Count Periods. A count period lasts approximately 4 seconds and is repeated a total of three times. To apply the COULTER Principle for counting and sizing cells, the following are needed to get results from the sample:
• A suspension of blood cells (specific WBC or RBC dilutions)
• An aperture of constant size
• A regulated source of aperture current (passing between two electrodes)
• A regulated source of aperture vacuum (relative to 6 inches of mercury)
To review The Coulter Principle, refer to the Coulter Hematology Innovations prerequisite, Chapter 1.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-31 of 74@BeckmanCoulter
The variables in this “equation” are the actual cells (number and size) of WBC, RBC and Plt of the individual sample.
The cell/diluent suspension in the aperture baths: Maintains cell integrity of the cells being analyzed. Conducts electrical current.
Aperture Vacuum
Low vacuum, equivalent to 6 inches of mercury (6.00 ± 0.04), draws a precise volume of cell suspension from each aperture bath through the aperture.
Observations
Find the aperture in each aperture bath.
Find the Vacuum Isolator Chambers; RBC on the left and WBC on the right. Refer to the CBC module diagram. When the Status is COUNT, low vacuum pulls the dilutions through the apertures to the vacuum isolator chambers.
Find the the pinch valves (PV 2 and PV 3) leading from the top of the RBC and WBC baths, respectively, and going to the top of the Vacuum Isolator Chambers. Notice that each I-beam tubing is enclosed by a metal coil. This is used to reduce electronic interference.
Find the Low Vacuum Regulator (RG1) Adjustment Knob. Refer to the Main Diluter diagram.
The System Test is used if any adjustment to Low Vacuum is necessary. Instruction for using the System Test is in the Troubleshooting Basics (TB) Module.
The system counts and sizes cells passing through the apertures. The collected data goes to the Analyzer for further analysis.
Activity
1. Cycle the blood sample.
2. When the Analyzer Status says COUNT, watch droplets coming into the Vacuum Isolator Chambers for RBC and WBC.
Self Check
How could results be affected by aperture vacuum that is Less than 6” ______________________________________________________
More than 6”______________________________________________________
Go to the Component Table in the lab to look at an aperture bath. Remove an aperture block to see the aperture.
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-32 of 74 @BeckmanCoulter
Aperture Current
Vacuum
Internal electrode
Aperture current
External electrode
Sample beaker
Blood cell suspension
Aperture Aperture tube
Aperture current
Vacuum
Bath
External electrode
Aperture
Internal electrode
Aperture housing
If an RBC bath, then this is the Sweepflow line.
Current flows between the internal and external electrodes in each aperture bath.
Go to the Component Table in the lab to look at the external and internal electrodes in the aperture bath.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-33 of 74@BeckmanCoulter
Observations
Locate the external electrode in each aperture bath. Refer to Figure page 20.
The external electrode, a silver-colored, square metal flag, hangs down in the center of each bath.
Locate the internal electrodes for each aperture bath. Refer to Figure page 20.
A Horizontal cylinder behind and near the top of each bath house the internal electrodes.
Aperture vacuum pulls the cells through the apertures. Aperture current is applied between the internal and external electrodes. The cells, poor conductors of electricity, set up an impedance or resistance to the current flow. This impedance, which is proportional to the volume of the cell, allows the cells to be counted and sized.
A coaxial cable is connected to the back of each internal electrode. It is through the coaxial cable that information on counting and sizing goes to the Analyzer.
Sweep Flow
Sweep flow is a flow of diluent behind the RBC aperture during counting.
• The diluent flow prevents the swirling effect of RBCs behind the aperture
• It sweeps away the RBCs after they are counted so as not to interfere with platelet counting
The sensing zone of the aperture tube extends out from the aperture itself. Without sweep flow, cells (primarily RBCs) tend to swirl or tumble behind the aperture after they are counted. If they nick the sensing zone, they appear as smaller particles and are counted and sized as platelets.
Observation
Find the sweep flow line below the RBC bath. It has a white plastic sheath around it.
Hemoglobin
The hemoglobin measurement occurs after the cell counting completes. Hemoglobin is measured photometrically through the WBC aperture bath.
Locate the Hgb Lamp
Locate the Hgb pre-amp.
Go to the Component Table in the lab to see the coaxial cables connected to the back of the aperture bath.
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-34 of 74 @BeckmanCoulter
Preparing the Diff Sample
Erythrolyse II reagent pumps StabiLyse
reagent pump
Mixes
The diff blood sample segment is prepared immediately after the two CBC segments process.
• The BSV rotates back to its original position. • The Diff lytic reagent pumps (PM 6 and PM 7) send Erythrolyse II reagent to
pick up the 28 μL segment from the line just behind the BSV and deliver it to the mixing chamber.
• The first rotation of the mixing chamber occurs and the red blood cell membranes are ruptured and dissolved.
• The StabiLyse pump (PM 12) adds StabiLyse reagent to the mixing chamber during the second mixing process to stabilize the white blood cells and ensure that they remain in a near-native state.
Observation
Locate the Erythrolyse pumps and Stabilyse pump
Locate the mixing chamber
Locate the blood/Erthyrolyse input port on top of the mixing chamber
Locate the StabiLyse input port on the right side of the mixing chamber.
Diff Analysis
• Sample pressure applied to the mixing chamber pushes the prepared Diff sample to the flow cell.
• At the same time, a sheath stream of diluent from the Sheath Tank is initiated in the triple-transducer flow cell. As the sample stream is pushed into the flow cell, alignment of the sample stream with the sheath fluid (hydrodynamic focusing) allows the white blood cells to pass one at a time through the flow cell aperture.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-35 of 74@BeckmanCoulter
• As each white blood cell passes through the Flow cell aperture, the three independent VCS measurements (Volume, Conductivity and Light Scatter) are taken simultaneously.
From BSV
StabiLyse reagent pump Mixing
Chamber
To flow cell
Activity
At the Command Center, change run type to CD.
Run a sample and observe the mixing chamber.
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-36 of 74 @BeckmanCoulter
Vented waste
Sample pressure
Sheath tank Flow
Cell
Sheath fluid
Prepared sample
For both Diff and Retic analysis, the instrument injects the sample into the center of a sheath stream for focusing the sample stream into the center of the flow cell aperture. The cells are lined up in single file to go through the aperture for Volume, Conductivity and Scatter analysis. The difference with retics is that the sample and reagents are prepared manually. After this prepared sample aspirates it goes straight to the flow cell for analysis.
Locate the following at the Components Table: Laser Lens Block - Focuses the laser on the aperture area of the Flow Cell Flow Cell - Examine the flow cell. Locate the two chambers, the aperture area
and the electrodes. Light scatter detector (S reading) Connectors for both the Direct current (V reading) and RF current (C reading) Sample line
Go to the Components Table in the lab to see the Triple Transducer Module (TTM) and the flow cells in more detail.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-37 of 74@BeckmanCoulter
Clean Up – The Cycle completes
• Aperture baths cross-rinse with diluent from the diluent dispensers. 10 mL of diluent rinse to the WBC bath comes from the RBC diluent
dispenser. 6 mL of diluent rinse to the RBC bath comes from the WBC diluent dispenser. Crossrinse is needed to minimize the potential for carryover in the WBC bath. The WBC bath needs a larger (10 mL) rinse volume to:
Remove RBC cell stroma after lysing Remove remaining lytic reagent Rinse above the 7 mL fill line (6 mL diluent + 1 mL CBC lytic
reagent) • High current is applied to the apertures (the burn circuit) to clean them. The
burn circuit activates to remove protein from the apertures. A "crackling" sound indicates that the burn circuit is active.
• The aspiration system is backwashed and the needle vent is rinsed and dried. • The mixing chamber and the sample pathway through the flow cell are rinsed. • Waste chambers are drained.
Activity
1. Cycle a sample.
2. Watch switching of the rinse in the baths at the end of the cycle.
3. Listen for the burn circuit.
Self Check
1. Which bath has more diluent rinse in it at the end of the cycle? ____________
2. Where does diluent rinse for WBC bath come from? ____________________
3. Where does diluent rinse for RBC bath come from? _____________________
4. The switching of diluent rinse is necessary to clean the WBC bath more thoroughly. List some reasons why the WBC bath needs more clean up.
________________________ ______________________________
________________________ ______________________________
________________________ ______________________________
________________________ ______________________________
________________________ ______________________________
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-38 of 74 @BeckmanCoulter
Manual Mode Aspiration
For the manual mode of operation, you can enter the sample identification by either of the following methods:
• Scan the bar code label on the tube into the Workstation Command Center Barcode field using the bar code scanner.
OR • Manually type the bar code number into the Workstation Command Center
Barcode field and select <Enter > or <Tab >.
Observations
In the manual mode, the manual mode aspiration pump draws a maximum of 125 μL through the aspirator tip and into the BSV. An automatic probe wipe washes and dries the outside of the aspirator tip and drains the backwash that cleans the inside of the aspirator tip. Once the blood segment is in the BSV, the cycle continues exactly as in the automatic mode. There is no difference in the handling of the blood dilutions or cycles.
Locate the manual mode aspiration pump (PM 5) Locate the Probe wipe
Activity
1. Identify a sample to the LH 500 Analyzer.
2. Mix the sample, open the sample tube and immerse the aspirator tip in the sample.
3. Press and release the aspiration bar. The system aspirates 125 μL of sample. (Remember, the blood detectors are not active in the Manual mode.
4. Be sure to remove and recap the tube when you hear a beep from the instrument.
5. An automatic probe wipe cleans the aspirator tip after sample aspiration.
6. Observe the movement of the probe wipe.
7. Observe the rotations of the mixing chamber for the diff analysis.
Probe Wipe
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-39 of 74@BeckmanCoulter
Answer Key for LH 500
Transport
1. Load stack empty sensor
2. Tube available sensor
3. Tube ram pushes a tube onto the tube forward sensor.
Automatic Mode Aspiration
1. Plugged needle vent possible problems: incomplete or partial aspiration.
2. Maximum of 185 µL
Sample Delivery
1. RBC dilution: 1.6 µL blood and 10 mL diluent
WBC dilution: 28 µL blood, 6 mL diluent and 1 mL CBC lytic reagent.
2. Dilution in WBC bath clears.
3. Results could be erratic on multiple runs of the same sample. Total voteouts could occur.
Aperture Vacuum
Low vacuum less than 6”: results lower than expected.
Low vacuum more than 6”: results on count parameters higher than expected.
Clean Up
1. WBC bath has more diluent rinse at the end of the cycle.
2. Diluent rinse for WBC bath comes from RBC diluent dispenser (10 mL).
3. Diluent rinse for RBC bath comes from WBC diluent dispenser (6 mL).
4. WBC bath needs more clean up to: Get rid of cell stroma and protein from the lysed RBCs Rinse above the 7 mL fill line (from the original WBC dilution) Rinse lytic reagent from the WBC bath Completely rinse the WBC bath
If you can meet the Objectives of this module to the criteria listed, proceed to the Skill Check.
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-40 of 74 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-41 of 74@BeckmanCoulter
SAMPLE FLOW
SKILL CHECK
Analyzer Components
Use the Analyzer Component CheckList below.
Get numbered tabs from the Skill Check cart.
Place the numbered tabs on the correct components. You may work with your partner.
When you are finished, call a facilitator to check your work.
Analyzer Component Checklist
1. Rocker bed 13. CBC lytic reagent pumps
2. Tube ram 14. WBC diluent dispenser
3. Tube available sensor 15. RBC Bath mixing bubble check valve
4. Piercing needle cartidge 16. Vacuum Isolation Chamber (WBC)
5. Front blood detector 17. Low Vacuum Regulator Adjustment Knob
6. Rear blood detector 18. External electrode – RBC bath
7. Auto Mode aspiration pump 19. Erythrolyse pumps
8. WBC aperture bath 20. Sweepflow line
9. Hemoglobin lamp 21. Overflow chamber
10. Waste chamber 22. Mixing chamber
11. Blood Sampling Valve 23. Stabilyse pump
12. Manual Mode aspirator tip 24. Sheath tank
SF
SCORE: _____ / 24
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-42 of 74 @BeckmanCoulter
You may use references as needed to answer the following questions.
Sample Dilutions
Name the reagents and quantities that make up the following dilutions
• WBC: ___________µL blood
___________mL ______________(reagent) ___________mL ______________(reagent)
• RBC: ___________µL blood ___________mL ______________(reagent)
Coulter Principle
List the four “constants” necessary for proper application of the Coulter Principle when counting and sizing particles: _________________________________________________________________ _________________________________________________________________ _________________________________________________________________ _________________________________________________________________ Name the “variable” in the application of the Coulter Principle ___________
Sample Flow
Write an explanation of the importance in the diluter cycle for each of the following. Sweepflow _______________________________________________________
________________________________________________________________
Mixing bubbles ___________________________________________________
________________________________________________________________
Cross-rinse ________________________________________________________________
________________________________________________________________
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-43 of 74@BeckmanCoulter
REPLACING COMPONENTS
OBJECTIVES Given a COULTER® LH 500 or practice station requiring a component replacement, locate the procedure using HELP or use the procedure provided and perform the procedure following all safety precautions.
If you complete an exercise at an instrument, ensure the instrument still operates normally. Normal operation is defined as a run of a patient sample without any instrument errors.
Why Do I Need To Know This?
Knowing how to replace some basic components will minimize instrument down time and require less service calls.
Why Can’t I Practice Now?
Maybe you can! If you are already familiar with the following basic information and “tool tips”, you may proceed to the practice exercises.
• Different types of tubing and why they are different. Colors, Lengths and critical lengths
Silicon, Polyurethane, Pharmed etc. • Pinch valves, mini pinch valves • Angar valves • Check valves and their sizes, correct orientation • Chokes, colors and correct orientation • Fittings, metal or plastic • Fuses • Parts of the Needle Assembly • Parts of the Hemoglobin Lamp Assembly The following pages review this basic information.
RC
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-44 of 74 @BeckmanCoulter
Resources
On the supply table you will find:
• Display sheet with labeled parts
• Boxes with different types of tubing, pinch valves, check valves, chokes, fittings, etc.
• Needle assembly
• Hgb Lamp Assembly
• Fuses
• Screwdriver
• Pencil
You may consult the following topics in Help:
• Replacing Tubing
• Checking Pinch Valves
• Remove the Pinch Valve Tubing and Pinch Valve
• Replacing Pinch Valves
• Replacing Check Valves
• Replacing Fuses
• Replacing the Needle Assembly (video)
• Replacing the Hemoglobin Lamp Assembly
NOTE: The sections that follow are not meant to be all-inclusive as to every type or possible application of the parts and pieces covered. The main intent is to provide a familiarity with the different parts and an awareness of the differences that may exist.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-45 of 74@BeckmanCoulter
INFORMATION / PRACTICE SECTION TUBING
Types of Tubing The general rule of thumb is to replace a piece of tubing with the same type as what you remove. Color-code stripes or printed part numbers identify the proper match. This is important because it ensures that the correct inner diameter of tubing is used.
• Silicon
I-beam Always used in pinch valves through the normally closed part of a
pinch valve. I-beam tubing must be threaded properly in the pinch valve tracks. Color-code stripe – Blue, Black, Red, No stripe.
Round Almost always used in pinch valves through the normally open part of
a pinch valve. Color-code stripe– Blue, Black, Yellow, Red, Green, Brown.
• Pharmed
A more chemically stable type of tubing (it has an opaque, cream color) I-beam and round versions Color-code stripe – Blue, Black, No stripe
• Polyurethane
A harder type of tubing not easily pinched Usually has a part number printed on the tubing
If no part number is printed, it will have a color stripe or stripes because it has a particular function, for example:
Green/black – used in 30 psi/vent lines White – used for diluent or cleaner lines Green – used in 30 psi lines
• Special tubing
There is some tubing that comes precut, with or without molded ends. It is prepackaged individually and has a specific part number.
Tubing Lengths
The general rule of thumb is to cut the replacement piece of tubing to the same length as the faulty piece.
• Tubing designated as “critical length” is usually marked with a small red plastic ring that slides onto the tubing.
There is some critical length tubing that is precut and may or may not have fitted ends attached. This precut tubing is packaged individually and has specific part numbers.
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-46 of 74 @BeckmanCoulter
PINCH VALVES
• Double-action pinch valves are proprietary, patented valves that are designed specifically to work with I-beam tubing.
These pinch valves can be removed with a pinch valve wrench (removal tool) to make tubing replacement a little easier or to replace a broken pinch valve.
View the HELP topic: Remove Pinch I-Beam Tubing. Use a red transit clip to hold the pinch valve open when replacing I-beam tubing.
Remember that I-beam tubing must be threaded properly in the pinch valve tracks. One simple idea to make this easier is to use a two-inch piece of applicator stick, inserted into one end of the I-beam tubing. This makes threading the tubing easier and ensures the I-beam is in the tracks correctly.
• There are also mini pinch valves (single) and triple (six tube) pinch valves.
ANGAR VALVES • This type of valve performs a similar function to the pinch valve, but it does
not pinch any tubing. The tubing attaches to the outside of the angar valve only.
These valves switch one common fitting to one of two other possible fittings internally.
CHECK VALVES • Check valves allow liquid or air flow in only one direction. • Since they allow flow in one direction only, the orientation of the valve in the
line is important. • There are three check valve sizes: small, medium and large.
Some medium check valves have a black stripe, indicating they have been tested to a certain specification. If a check valve you are replacing has a black stripe, be sure to replace it with a black striped check valve.
See Diagram on page RFC-5.
• When replacing a check valve, remove the tubing one end at a time from the old check valve and reconnect to the new check valve to ensure the direction of flow is correct.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-47 of 74@BeckmanCoulter
Check Valves and Chokes (examples)
CHOKES There are five types of chokes, color-coded by sizes, described below.
Metal
Metal chokes restrict the flow of the air in a pathway.
• Cylindrical metal chokes
An arrow on the cylindrical metal choke represents the direction of flow and should be noted when replacing the choke.
These chokes do not come with fittings on them. It is necessary to unscrew the fitting from the end of the old choke and screw it into the new choke. There is an o-ring on the fitting that must be in place to ensure no air leaks at the union point.
Color coded – Red, Black, Brown, Green, Blue, Gold
• Metal fittings with a built-in choke
Color-coded – Blue, Green, Brown, Black, Red
• Variable Chokes
Allow adjustable restriction
Check Valves
Metal Choke
Direction
Fitting with choke
Plastic Choke
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-48 of 74 @BeckmanCoulter
Plastic
Plastic chokes restrict the flow of liquid or air in a pathway.
• There are two styles of plastic chokes. • They also have direction indicators. (See figure on page RFC-7) • Color-coded – Black, Brown, Gray, Yellow, Blue
Restrictors
Tubing used to provide a certain amount of restriction to the flow of liquid or air.
FITTINGS • Can be metal or plastic • There are several styles including Y, T, Cross-, Feed-through, Union,
Reducer. • Connects tubing to components or tubing-to-tubing. • Carefully push tubing straight onto a fitting.
Push tubing onto a fitting so that the end of the tubing is beyond the barb on the fitting.
Never use COULTER CLENZ® (cleaning agent) or LH Series diluent or CBC Lytic Reagent to moisten the end of a tubing for lubrication. Any residue may dry into a salt or gel and affect instrument operation. You may use Reagent Grade water.
You may also carefully stretch the end of a tubing using hemostats, or needlenose pliers or even a toothpick. It depends on the tubing. You must be careful not to create a hole in your new tubing.
Fittings (examples)
Y-fitting
T-fittings
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-49 of 74@BeckmanCoulter
FUSES • The analyzer must have power OFF before attempting to examine or replace a
fuse. • Always replace a fuse with the same Type and Rating as the suspected
defective fuse. (E.g. SLO BLO, 6.25A.) • If a fuse fails shortly after you put it in, turn the power OFF to prevent
possible damage to the instrument’s electrical system. Unplug the power cord from the wall outlet and call your Beckman Coulter representative.
• Replacement fuses are part of your spare parts kit. Try to save the instrument packing list which has all spare parts listed with their part numbers.
LH 500 Specific
The fuse panel for the LH 500 is located behind the left side panel. If you have an error message such as “VDC (voltage) OUT OF RANGE” You may need to replace a fuse.
• Find the procedure for replacing fuses in HELP. • Power down and lift the left panel up and off the left side of the instrument,
following the instructions in the HELP procedure. Do not do this now, just locate.
• Look closely at the fuse panel (use the fuse panel example in class). There are nine fuses labeled F1 through F9 Each shows the type and rating
• Locate fuse F10 on the back of the analyzer (lower right corner). • Replace the left side panel. • Power on, following the instructions in the HELP procedure.
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-50 of 74 @BeckmanCoulter
NEEDLE ASSEMBLY INFORMATION This assembly consists of a cartridge holder, a plastic bellows and the needle.
• At the bottom of the assembly are three lines:
Aspiration line Needle vent line (line 1) Waste line (line 3)
• A new needle assembly includes all three lines already attached.
• Find and review the procedure for replacing the needle assembly in HELP.
• If there is nothing wrong with the aspiration line you use presently, just remove the line that comes with the new assembly and transfer the one in use to your new assembly.
• If you do decide to use the new aspiration line, be sure to run your controls to verify no calibration changes.
• Always perform the Clean Needle procedure to disinfect the needle before handling the assembly.
• Be sure the aspiration and vent lines are not twisted.
• Remember that the assembly is mounted at an angle, so when removing or replacing the assembly, it is important to apply the same angle.
• Remove the metal needle shield to gain access to the needle assembly.
• Use the supplied needle safety clip whenever handling the needle assembly.
• Always Power Off the Main Power switch on the back of the instrument before touching the needle. The two LED indicators on the front of the instrument should be off.
Line 3
Line 1
• Remove the Safety Clip when finished. • Replace the needle safety shield. • Power On the instrument.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-51 of 74@BeckmanCoulter
HEMOGLOBIN LAMP ASSEMBLY INFORMATION The hemoglobin lamp assembly consists of a lamp and connector mounted in a metal frame. The metal frame has two screw mounts to attach it to the CBC module.
• Find and review the procedure for replacing the hemoglobin lamp assembly in
HELP. • Turn OFF the Main Power from the back of the instrument. • Disconnect the connector plug. • Using a pencil, trace around the assembly at the point it connects to the
instrument. Then remove the two screws.
• Verify the replacement lamp assembly’s lamp filament is vertical. (Look
through the round opening on the side.) • Using the traced outline, attach the new assembly to the instrument with the
two screws. (Hint: Use the “stick trick” to get the screws started. Ask your facilitator)
• Connect the lamp plug. • Turn Main Power ON. • Wait 15 minutes and perform the HGB Lamp Adjust procedure.
HGB Lamp Adjust • Switch to the Instrument computer display by pressing the top button on the
switch box. • Select Diagnostics Operator Options Hgb Lamp Adjust • Press Enter, Enter. • The hemoglobin voltage adjusts automatically.
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-52 of 74 @BeckmanCoulter
PRACTICE FOR REPLACING FAULTY COMPONENTS As you progress through this practice session, feel free to ask your facilitator for assistance in accomplishing each task. Repeat any procedure until you feel comfortable doing it.
The following five practice sessions (A, B, C, D, E, F) may be done in any order you wish. When you are ready, have a colleague inspect and sign-off your work, then replace the labels indicating the “faulty” parts.
Materials You Will Need
Access to the HELP System
At the supply table you will find:
• A practice station with labeled “faulty” part(s) • Spare parts • Tools
Practice A Step Action
1 Locate the “leaky” tubing in the practice station.
2 Select the correct replacement tubing.
3 Use a red transit clip to hold the pinch valve open.
4 Remove defective tubing and replace with the new tubing.
5 Remove transit clip.
Checklist for Practice A The I-beam tubing is the same type and length as the tubing being replaced.
The tubing is threaded in the tracks in the pinch valve.
Both ends of the tubing are reconnected so they don’t leak.
Transit clip has been removed.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-53 of 74@BeckmanCoulter
Practice B Step Action
1 Locate the “faulty” check valve in the practice station.
2 Select the correct replacement check valve.
3 Remove defective check valve and replace with the new one.
Checklist for Practice B
The correct size check valve was used.
The check valve is in the original direction.
Practice C Step Action
1 Locate the “clogged” needle in the practice station.
2 Follow the procedure for replacing the needle assembly found in HELP and the information found in this module.
3 Disconnect the vent and waste line fittings.
4 Remove the defective needle from the holder.
5 Disconnect the aspiration line from the fitting on the defective needle.
6 Remove new aspiration line from the new assembly and attach the aspiration line from step 5 to the new assembly. Install new needle assembly.
7 Attach vent and waste lines to their correct connectors.
Checklist for Practice C The waste and vent lines are reconnected to their correct fittings.
The needle assembly is inserted properly in its holder.
No lines are pinched or bent.
As part of the Skill Check, you will be asked to pull out and then replace a needle assembly at an instrument. No tubings will be disconnected.
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-54 of 74 @BeckmanCoulter
Practice D Step Action
1 Locate the “faulty” Hemoglobin Lamp Assembly on the practice station.
2 Follow the procedure for replacing the hemoglobin lamp assembly found in HELP and the information found in this module.
3 Unplug the Lamp connector.
4 Using a pencil, trace around the assembly at the point it connects to the instrument. Then remove the two screws that hold it in place.
5 Look at the replacement lamp assembly to verify the lamp filament is vertical. (Look through the round opening on the side.)
6 Plug in the new Lamp connector.
7 Using the traced outline, attach the new assembly to the instrument with the two screws.
8 Verbally describe the next steps for the Hgb Lamp adjust procedure and point to the pathway on an instrument computer display.
Checklist for Practice D Traced outline of old assembly before removing to ensure correct alignment.
Reattached connector.
Correctly described Hgb Lamp Adjust procedure.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-55 of 74@BeckmanCoulter
Practice E
Step Action
1 Locate the correct “faulty” fuse at the practice station based on the following error message: “VDC +12 OUT OF RANGE”.
2 Follow the procedure for replacing fuses found in HELP and the information found in this module.
3 Remove faulty fuse and replace with correct type and rating.
Checklist for Practice E Correct fuse number located.
Correct replacement chosen.
If you feel confident with these skills and practiced each one, you are ready to proceed to the Skill Check.
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-56 of 74 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-57 of 74@BeckmanCoulter
REPLACING COMPONENTS
SKILL CHECK
Using a COULTER® LH 500 or practice station in the lab, locate and perform the following replacement procedures:
• Replace the “leaky” tubing in a single pinch valve
• Replace a check valve
• Replace a Needle Assembly
• Replace a Hemoglobin Lamp Assembly
• Replace a fuse
All necessary tools and materials can be found on the supply table.
The replacements may be done in any order.
When finished, ask a facilitator to inspect your work for sign-off.
Inspection Checklists
Checklist for Leaky Tubing Replacement
The I-beam tubing is the same type and length as the tubing being replaced.
The tubing is threaded properly in the pinch valve.
Both ends of the tubing are properly reconnected.
Transit clip has been removed.
Checklist for Check Valve Replacement
The correct size check valve was used.
The check valve is in the proper (original) orientation.
RC
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-58 of 74 @BeckmanCoulter
Checklist for Needle Assembly Replacement
Select correct needle type.
The aspiration line is reconnected to the front blood detector.
The waste and vent lines are reconnected to their correct fittings.
The needle assembly is inserted properly in its holder.
No lines are pinched or bent.
Direct observation at their instrument of student disconnecting needle shield, pulling needle assembly out of the holder and then replacing properly. Student then replaces needle shield.
Checklist for Hemoglobin Lamp Assembly Replacement
Traced outline of old assembly before removing to ensure correct alignment.
Reattached connector
Described Hgb Lamp Adjust procedure correctly.
Checklist for Fuse Replacement
Correct fuse number located.
Correct fuse replacement chosen.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-59 of 74@BeckmanCoulter
TROUBLESHOOTING BASICS
OBJECTIVES Given an operating LH 500, access to HELP, and access to the SF Sample Flow training module:
• Identify an instrument problem based on Error messages Abnormal sample results Abnormal Daily check or System test results Abnormal control results
• Isolate a problem based on observation of sample flow • Isolate the component(s) involved based on observed symptoms • Perform selected cleaning and adjustment procedures as necessary
Why Is It Important?
An operator that can diagnose and correctly respond to simple instrument problems that occur from time to time keeps instrument downtime to a minimum. This saves the laboratory time and money.
Resources
• LH 500 • LH 500 Workstation with HELP • Diagrams: reference to laminated sheets of instrument modules and
components • Training Modules: Sample Flow [SF] and Replacing Faulty Components
[RFC] • “Household Bleach” – be sure to ask facilitator before using • Syringe and tubing • Cotton-tipped applicators • Lint-free tissue • Screwdriver
TB
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-60 of 74 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-61 of 74@BeckmanCoulter
INFORMATION / PRACTICE SECTION
Basic Troubleshooting Techniques
How to Recognize an Instrument Issue
Start with the data generated: • Error messages generated Error messages with corrective actions are listed in HELP. Whenever a message appears on the Workstation, read it and
double-click if necessary for more information. Use the History Logs to see if certain messages are occurring very
often. • Daily Checks • Control runs • System Test • XB Analysis (if used) • Sample data • IQAP reports • Abnormalities in sample flow
Steps to More Efficient Troubleshooting
1 Become familiar with normal operation. • Startup, Sample Analysis, Shut down • Normal Sample Flow Know what should happen during each part of the cycle Be familiar with normal sounds of operation
Review the SF Sample Flow Module
2 Use a logical approach to obtain a clear symptom and isolate the components involved.
• Use the error message information as a starting point. • Use your knowledge of sample flow
3 Acquire the knowledge and skills necessary to locate and correct issues.
• Use HELP • Use the training modules • Observe the instrument • When necessary, call your Beckman Coulter representative
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-62 of 74 @BeckmanCoulter
TROUBLESHOOTING BY INSTRUMENT SUBSYSTEMS
There are three instrument subsystems: 1 Electronic 2 Fluidic • Pneumatics (pressures and vacuums) • Hydraulics (liquids) 3 Reagent
Electronic Subsystem
If there is no power: • Check to see if the Standby indicator light is On or Off. Verify position of the Standby/Reset switch, if it is Off, turn it
On. If the Standby/Reset is On, check the Main Power switch on the
back. If it is Off, turn it On. • Check all plug connections. If all plugs are in and switches are On, check fuses using the
HELP procedure. If there is a message that Hgb Voltage is low: • Check the Hemoglobin Lamp: Try adjusting the Hgb Lamp Voltage. If it is burned out, replace the lamp using the HELP procedure.
Reagent Subsystem
Level Sensing
Two types of sensors provide level sensing: • Reagent level sensing uses optical sensors
When you see the error message for Reagent Out you must replace the empty reagent container indicated.
Always check the indicated container to see if it is empty. If it is empty, replace it. If it is not empty, you have a false reagent out message and may need to call your Beckman Coulter representative.
Try priming the reagent first. If you call your BCI rep, you may need to
temporarily disable the associated reagent sensor. If a sensor is disabled, make sure a notice is posted warning all operators to visually check the reagent level concerned.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-63 of 74@BeckmanCoulter
To disable a reagent sensor:
Step Action
1 Switch to the Instrument Computer
2 Diagnostics Operator Options Fluidic Test.
3 Select Disable Reagent Sensor press Enter to Begin.
4 The Sensor Status Box will display.
5 Select with the ↑ and ↓ arrows on the keyboard the reagent sensor you want to disable. Follow the directions on the screen to complete the task.
If a sensor is disabled, the instrument does not know when the container is empty. Sample results will be incorrect. • The instrument will not operate until the replacement occurs and you
prime the new reagent. • Refer to HELP for the Reagent Replacement procedure.
Waste container level sensing uses a float sensor • When you see the error message Waste Full, you must replace or
empty the waste container. • If the waste is not full, check the float sensor, it may be stuck in the up
position. • The instrument will not operate until the replacement occurs. • Refer to HELP for the Waste Container Replacement Procedure.
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-64 of 74 @BeckmanCoulter
Reagent Related Problems
High background counts • Reagent may be contaminated. Handle reagents properly to avoid
accidentally introducing dust, dirt or powder. Replace contaminated reagent.
• Dried reagent spills or leaks can form salt deposits that create background electrical noise. Clean all spills and leaks immediately.
Expired reagent • Be sure to update the reagent replacement screen with the correct dates. • Rotate stock to avoid accidental use of expired reagent.
Frozen reagent • A reagent that was frozen and thawed could have separated chemical
components. One symptom could be increased MCVs, due to diluent now being non-isotonic.
• If there is a possibility of having frozen /thawed reagent (e.g. cold climates):
If a reagent is still frozen: allow to thaw completely at room temperature.
Mix by inversion as per package labeling.
Fluidic Subsystem
The key components of the fluidic subsystem are the Tubing, Pinch Valves, Pumps and Solenoids.
Hydraulics
Check tubing connections and routing. Look for leaks or disconnects. • At the reagent container • At the input manifold on the back of the Analyzer • Throughout the Main diluter module. • Check associated pumps, pinch valves and solenoids.
Pneumatics
There are two main pneumatic signals, vacuum and pressure.
1 Vacuum has two measured levels: High Vacuum and Low Vacuum. a High vacuum is equivalent to 17-28 inches of mercury.
• Aspiration, refilling diaphragm pumps and draining aperture baths use high vacuum.
• It is not operator adjustable
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-65 of 74@BeckmanCoulter
• An error message alerts the operator of a problem.
• If out of range on the Low side (<17), check the vacuum trap for the presence of liquid (normally it should be dry) and clean as needed. Refer to Help for the Clean Vacuum Trap Procedure. DO THIS NOW and perform the procedure.
• If the vacuum trap is not the problem, call your Beckman Coulter representative for assistance.
b Low Vacuum is equivalent to 6 inches of mercury.
• Derived from the high vacuum
• Also known as Aperture Vacuum
• Pulls the dilutions through the RBC and WBC apertures and the sweep flow diluent behind the RBC aperture.
• Operator adjustable
• An error message alerts operator of a problem
• Refer to HELP for the Adjust Low Vacuum procedure Locate the Low Vacuum regulator wheel but do not adjust at this time.
If the Low Vacuum has been adjusted and it doesn’t stay adjusted, check the Vacuum Trap and clean it if necessary.
Also check the WBC/RBC VIC’s (Vacuum Isolator Chambers) and PV-3 for holes in the tubing or disconnected tubing.
2 Pressure has three measured levels: 60 psi, 30 psi and 6 psi. a 60 psi
• Generated by the compressor in the pneumatic power supply.
• This is the source of the 30 psi and 6 psi.
• An error message alerts operator of a problem. If this occurs, call your Beckman Coulter representative.
b 30 psi
• Dispenses reagents from pumps, opens pinch valves and moves air cylinder shafts.
Controlled through solenoids. Check solenoid function using the Solenoid Test.
Operator adjustable
An error message alerts operator of a problem
Refer to HELP for the Adjust 30 PSI Pressure procedure. Locate the 30 psi regulator knob. Ask a facilitator to verify. DO THIS NOW and then perform the procedure.
DO THIS NOW and perform the procedure. Check the function of Solenoid 7 for the WBC mixing bubbles.
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-66 of 74 @BeckmanCoulter
How to do the solenoid test from the instrument display:
Step Action
NOTE Open the Instrument door so you can see the mixing bubbles in the WBC Bath
1 Diagnostics Operator Options Solenoid Test.
2 Use the arrow keys to highlight the solenoid you want. 3 Press Enter to select (highlight changes to red text).
4 Press F2-Activate and deactivate.
5 Press F9-Exit.
c 6 psi
• Used for Sheath pressure and mixing bubbles
• Operator adjustable
• An error message alerts operator of an issue. Call your Beckman Coulter representative before making this adjustment.
• Locate the Sheath Pressure regulator knob, but do not adjust at this time.
• Remove the Diluter Center Panel and open the cover for the baths. Press <F03> and observe mixing bubbles entering the two baths. There should be 10 mixing bubbles.
TROUBLESHOOTING THROUGH SAMPLE FLOW
To successfully troubleshoot this instrument: • Become familiar with normal sample flow. • Know what should be happening during each part of the cycle • Be familiar with normal sounds of operation.
This type of knowledge is gained mostly through experience. To increase your comfort level with the normal sample flow of this instrument, periodically review the SF Sample Flow Module.
Autoloader Transport Error messages alert the operator of problems with the Autoloader mechanism, sensors, cassette jams.
Access the autoloader test functions from the Instrument Computer display. Select Diagnostics Operator Options Autoloader Tests
There are tests that you may use to diagnose problems. Perform the following scenarios to see how these tests work:
• Select the Right Elevator Up/Down test and observe elevator response.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-67 of 74@BeckmanCoulter
Press Escape. Now do the same with the Left Elevator Up/Down test.
• Select Rock the Bed. Observe how the mechanism works. Press Escape.
• Select the Right Elevator Up test and leave the elevator in the up position. Press Escape. Select Autoloader Home and observe what happens. Press Escape when done.
Place a cassette in the loading bay. Select Autoloader Test Routine. Observe what happens. Press Escape.
Cassette problems can be related to buildup of debris or crystals in and on the cassette. Refer to HELP for the Clean Cassette procedure. If a cassette is jammed and cannot be removed, refer to HELP for the Jammed Cassette Removal procedure. DO THIS NOW.
Aspiration Aspiration error messages alert the operator of aspiration problems. • The front and rear optical blood detectors determine if the aspirated
blood meets the criteria for a proper aspiration. If not, an aspiration error message appears. All sample results flag with a P.
• In addition, on the Results & Graphics Screen in the Common Area under Status it will state “Part Asp”.
If the blood detectors are faulty, then false error messages occur. Check the blood detectors from the Instrument Computer display. Select Diagnostics Operator Options BSV Tests Blood Detector Test. DO THIS NOW.
• This could be sample related if there is a clot in the tube. Check for a clot before rerunning. It could be a short sample. There must be at least 1 mL of properly collected, anticoagulated blood in the tube for automatic mode aspiration. If sample volume is too low, rerun in manual mode.
If the sample has a low hemoglobin (approx. 4 g/dL) the blood detectors post an aspiration error message. This type of sample may be rerun in the manual mode.
• The needle or aspiration tubing may have a kink, pinch or clog. Check the lines to be sure they are not twisted or pinched.
• If you suspect a clog in the aspiration pathway, try the Aspiration Path Bleaching (Automatic or Manual) topics in HELP. (Note: Before proceeding, ask facilitator for the “fake” bleach to use in the classroom). DO THIS NOW.
• If you suspect a clog in the aspiration pathway, try the Aspiration Path Bleaching (Automatic or Manual) topics in HELP. (Note: Before proceeding, ask facilitator for the “fake” bleach to use in the classroom). DO THIS NOW.
• As a last resort, replace the needle using the HELP procedure. (this procedure was practiced in RFC Replacing Faulty Components)
• The BSV may not be rotating properly due to crystalline buildup. Refer to HELP for the Clean Outside of BSV and the Cycle BSV procedures. DO THEM NOW.
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-68 of 74 @BeckmanCoulter
Sample Delivery If the baths do not drain or do not drain completely, the next sample will be over diluted. When overflow is detected in the overflow tank, an error message appears to alert the operator. • Check the drain lines at the bottom of each aperture bath. Be sure they
are not pinched. Use a red clip to open the pinch valve and move the blue-striped I-beam tubing back and forth.
If the RBC and WBC dispensers are leaking due to cracks or to leaky tubing, not enough diluent is delivered to the baths. This causes all counts to be too high. • Check the dispensers and tubing for leaks. Look for microbubbles in the
dispenser. Replace tubing if necessary. Call your Beckman Coulter representative if a dispenser is leaking.
If the CBC lytic reagent pump or associated tubing leaks, then not enough lytic reagent is delivered to the WBC bath. This causes the WBC and the Hgb to be grossly elevated. • Observe sample flow for leaks and watch for the color change from
cloudy red to clear red in the WBC bath. Verify tubing connections at the pinch valve and at the pump. Replace tubing if necessary. Call your Beckman Coulter representative if a pump is leaking.
If the mixing bubbles are missing from either bath, erratic results and increased CP voteouts may occur. • Check the bubbles by observing sample flow or from the Instrument
Computer Display, select Diagnostics Operator Options Fluidic Tests Bubble Mix. DO THIS NOW.
• Verify the mixing bubble check valves are not leaking or plugged. Replace if necessary.
CBC Sensing If the Aperture Vacuum (or Low Vacuum) is out of range, an error message alerts the operator of a problem Use the System Test to adjust Low Vacuum.
If either aperture becomes clogged or partially clogged, there could be CP Voteouts (V, v) or Total Voteouts (-----) of the measured parameters.
If this happens on just one sample, repeat it. If this begins happening on most or all samples, from the Instrument Computer display (Top, Pos 1), select Diagnostics Operator Options Fluidic Tests Multiple Aperture Zap. Refer to the HELP procedure Zap Apertures. DO THIS NOW.
Multiple Aperture Zap may be done more than once. It usually cures the problem very quickly and easily.
If the voteout problem persists after trying the previous procedure, then you can try bleaching, but this should only be done as a last resort because it is time consuming. Refer to the HELP procedure Bleach Apertures and Flow Cell. DO THIS NOW. (Note: Before proceeding, ask facilitator for the “fake” bleach to use in the classroom).
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-69 of 74@BeckmanCoulter
• If the Hemoglobin Lamp voltage is too low, an error message alerts the operator. Refer to the last section of the HELP procedure Replace Hemoglobin Lamp Assembly to find the Hemoglobin Lamp Adjust procedure. If this fails, replace the lamp. (Both of these procedures were practiced in the RFC Replacing Faulty Components module)
Diff or Retic Sensing If there is a flow cell problem, one of three messages appears: PC1, PC2 or FC along with the code (:::::) in place of results. • PC1 – could be caused by:
A partial obstruction of the sample line from the mixing chamber to the flow cell.
A partial flow cell obstruction. Flow cell sample or sheath pressure errors (This generates the specific pressure error message at the instrument and Workstation)
• PC2 – could be caused by: Insufficient Diff reagent delivery Patient chemistry imbalance (common with sample problems such as elevated triglycerides, improper sample collection/mixing, or drug interferences, i.e. chemo)
Mixing chamber not rotating • FC – could be caused by:
Full clog of the flow cell. The instrument tries Autoclearing the flow cell, but if unsuccessful, the system stops.
Not all flow cell problems are clogs. They may be related to an individual sample. • From the Instrument Computer display, select Diluter Functions
Purge. DO THIS NOW. If Purge does not work, try running Latron. • Run the Latron Primer as usual, if OK proceed to next step. • Run the Latron Control as if it were the Primer In other words, keep all of
the primer settings on the Command Center, but run the Control.
If the Flow Cell is clear, you should recover the number 8192. DO THIS NOW.
This means there is no clog and it must be another problem. • If you recover a very low number, then either the sample line from the
mixing chamber to the flow cell has a clog or the flow cell has a clog. Try the Bleach Apertures and Flow Cell procedure using HELP
• If the flow cell is not clogged, then it could be a VCS Technology problem, a chemistry problem or a mixing problem.
VCS Technology problem: Run Latron Control the correct way. If all values recover within limits, go to next step. If not, call your Beckman Coulter representative.
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-70 of 74 @BeckmanCoulter
Chemistry problem: if the sample is very lipemic, do the diff manually. If the problem appears on many samples, consider the LH Series Pak reagents. Be sure they are not expired. Check the respective reagent pumps and tubing for leaks. Replace if necessary.
Mixing problem: observe the mixing chamber rotation during sample flow. If the chamber is not rotating, call your Beckman Coulter representative.
Proceed to the Skill Check for this module
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-71 of 74@BeckmanCoulter
TROUBLESHOOTING BASICS
SKILL CHECK
Instrument Problem Recognition
1. Name at least four types of data that may be used to recognize an instrument problem.
______________________________________________________________
______________________________________________________________
______________________________________________________________
2. What are the three main steps to more efficient troubleshooting? ______________________________________________________________ ______________________________________________________________ ______________________________________________________________
3. What are the three instrument subsystems? ______________________________________________________________ ______________________________________________________________ ______________________________________________________________
Aspiration Error Messages
1. List at least three possible reasons for Aspiration Errors:
___________________________________________________ ___________________________________________________ ___________________________________________________ ___________________________________________________
2. What Aspiration Error message appears under STATUS in the Results & Graphics Patient Test when you run blood samples with the blood detectors disabled? ____________________________
3. How does the Workstation flag sample results when there is any Partial Aspiration situation? _____________________________________________
Diff and Retic Error Messages and Flags
1. List one reason for the occurrence of each of the following messages or flags:
PC1 _______________________________________________________ PC2 _______________________________________________________ ::::: _______________________________________________________
TB
COULTER® LH 500 TRAINING MODULES
PN 624762 CA.1 (June 2012) Professional Development
TB-72 of 74 @BeckmanCoulter
Troubleshooting Diff and Retic
1. Given the following scenarios what problem(s) might you suspect, if any?
LATRON Control run as a Primer = 8192 ____________________________________________________________
LATRON Control run as a Primer = 0 ____________________________________________________________
Colleague Signoff of Procedures Performed or Check-Off if Solo
Clean Vacuum Trap _________ Blood Detector Test _________
Use the Solenoid Test to observe function of Sol. 7
_________ Aspiration Path Bleaching (Automatic and Manual)
_________
Adjust the 30 psi _________ Clean Outside of BSV _________
Right Elevator Up/Down _________ Cycle BSV _________
Left Elevator Up/Down _________ Bubble Mix _________
Rock the Bed _________ Multiple aperture Zap _________
Autoloader Home _________ Bleach Apertures and Flow Cell
_________
Autoloader Test Routine _________ Purge _________
Jammed Cassette Removal
_________ Run Latron Control as if it were Latron Primer
_________
Troubleshooting by Symptoms
1. You observe that the past three results all have a very high WBC and Hgb. What would you suspect? Where would you look? What could you do? _____ _______________________________________________________________ _______________________________________________________________ _______________________________________________________________
2. You observe that you have an increased number of CP voteouts on RBC and Plt results. What would you suspect? Where would you look? What could you do?__________________________________________________________________________________________________________________________________________________________________________________________
3. Your low vacuum won’t adjust. What would you suspect? Where would you look? What could you do? _________________________________________ _______________________________________________________________ _______________________________________________________________ _______________________________________________________________
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
TB-73 of 74@BeckmanCoulter
NOTES:
PN 624762 CA.1 (June 2012) Professional Development
TB-74 of 74@BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-1 of 54@BeckmanCoulter
IMPLEMENTATION MODULES
This document is not intended to replace the information in your Instrument Instructions for
Use Manual (IFU). Information in the Instructions for Use Manual supersedes information in any other manual.
Implement
Setup
Troubleshooting
Basics
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-2 of 54 @BeckmanCoulter
You will see the following symbols used throughout the learning modules. Important information you should know.
Techie-type information you may be interested in knowing.
Do these steps now!
Timely Tip
You reached the goal!
I do not understand…Questions Resources, Help
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-3 of 54@BeckmanCoulter
COURSE MAP - IMPLEMENTATION
Mentor Trainer
Introduction to Truth Tables
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-4 of 54 @BeckmanCoulter
PERSONAL PROGRESS SUMMARY Name_________________________
Implementation Modules Date Initial Facilitator
Introduction to Truth Tables
Mentor Trainer
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-5 of 54@BeckmanCoulter
INTRODUCTION TO TRUTH TABLES
OBJECTIVES Given an operating COULTER® LH 500, access to HELP, and this module • Determine whether a specimen is clinically normal or abnormal (in your
laboratory) • Define review limits and review protocols (in your laboratory) • Know criteria to follow for data collection • Know how to interpret the Rumke Binomial Distribution Table • Calculate the statistics necessary to determine acceptable performance • Perform Truth Table Analysis • Define the four categories on a Truth Table
Why Is It Important?
A Truth Table is an effective way to evaluate an instrument’s clinical sensitivity. Using Truth Table analysis determines the sensitivity, specificity, and agreement of the automated differential in distinguishing normal and abnormal specimens.
Resources
• LH 500 HELP • CLSI-H20 and EP9 • Hand-held calculator or Workstation Calculator shortcut on desktop
ITT
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-6 of 54 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-7 of 54@BeckmanCoulter
INFORMATION / PRACTICE SECTION
Introduction
One of the most important tasks to accomplish during the Implementation of any automated differential analyzer is to establish/verify an effective flagging protocol. The purpose of the flagging protocol is to identify those samples which require a slide review so that significant morphology detail can be added to the automated report. The extent to which an analyzer can effectively screen "normal" vs "abnormal" is defined as the instrument's clinical sensitivity. The Truth Table is an effective tool for evaluation of the instruments's clinical sensitivity.
The first step in establishing an effective flagging protocol is to clearly define those findings that are considered clinically significant. A significant finding would be considered some detail that could add value to the report and ultimately affect/improve patient care.
The next step is to identify ways to flag for these findings. Some flags and codes are already built into the analyzer and are generated when the analyzer detects an unusual or unexpected distribution of particles. Additional flags can be set up by the operator to reflect the laboratory's review requirements and to support the screening process.
Specimens determined to be abnormal by the automated system should be evaluated according to the laboratory’s protocols. Specimens determined to be normal by the automated system could be released without further review (autovalidation). The evaluation of the instrument's clinical sensitivity is critical because over-flagging may lead to unnecessary differential review, while under-flagging may miss abnormal samples.
The manual differential is used as a reference method to assess whether the instrument's flagging is appropriate. The lab determines the flagging limits which separate normal results from abnormal results, classifying each sample as a True Negative, True Positive, False Negative or False Positive. Reviewing and possibly adjusting the operator definable flags may further improve the efficiency of the automated differential system.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-8 of 54 @BeckmanCoulter
IMPORTANT NOTE
Beckman Coulter Inc. does not claim to identify every abnormality in all samples. Beckman Coulter Inc. suggests using all available flagging options to optimize the sensitivity of instrument results based on your patient population. All flagging options include reference ranges (H/L), action and critical limits, definitive flags, suspect flags, parameter codes, delta checks, decision rules and system alarms. Beckman Coulter Inc. recommends avoiding the use of single messages or outputs to summarize specimen results or patient conditions
Beckman Coulter Inc. does not claim to identify every abnormality in all samples. All Truth Tables and associated recommendations reflect the extent to which your workflow may be managed efficiently but are limited to the sample data submitted for evaluation. Accepting any of the suggested recommended changes to the current review criteria would require appropriate changes to action limits and/or lab protocol that were in place at the time of this evaluation. Finally, all observations are recommendations and subject to your review and discretion in the formation of your Laboratory’s review and flagging protocols."
AUTOMATED VS MANUAL DIFF DATA COLLECTION When comparing the automated differential to the manual differential, ensure that the inherent variations of slide preparation are minimized by:
Making quality smears.
Staining with quality stain.
Using optically clean microscopes.
Having qualified technologists review the smear(s).
Specimens are identified by lab number on both printouts and microscopic slides for future reference.
CLSI (H20)3 recommends that two technologists each perform a 200 cell manual differential on two different slides (total of 400 cells analyzed by each technologist). More cells counted results in a more precise and accurate reference against which to judge the accuracy of the automated method. Automated differential systems analyze thousands of cells. The following Rumke Binomial Distribution Table4, published by C.L. Rumke in 1978, illustrates that the statistical uncertainty of reference values is a direct function of the number of cells counted. The imprecision of the manual differential is especially pronounced with low numbers (e.g., monocyte, eosinophil and basophil percent).
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-9 of 54@BeckmanCoulter
TRUTH TABLE DATA COLLECTION • The ideal truth table would include a minimum of 100 samples with 50%
having an abnormal slide review. Specimens should be collected into K2 or K3 EDTA. For optimum performance, all specimens should be analyzed within time limits recommended by the manufacturer(s). Analyze the same specimen within 2 hour on all instruments for accurate comparison. Refer to CLSI Standard for Reference Leukocyte (WBC) Differential Count (Proportional) and Evaluation of Instrumental Methods; H20-A2 or current revision.
• In addition, a complete manual differential should be performed. A complete manual differential includes WBC differential, RBC and Plt morphology and WBC and Plt estimate. Results of other test procedures, i.e. manual Plt count, should be also noted.
• Poor statistics could be obtained because of the imprecision of the manual differential. This will be especially pronounced in cell populations with lower numbers.
• The statistical error of the manual differential can be reduced by performing several 200-cell differentials. Differential counts by several technologists are preferred. The CLSI protocol (H20) recommends two (2) technologists each doing a 200-cell differential for each sample. If you choose to have multiple technologists perform manual differentials, average them and submit the average differential counts.
• Ensure a random sampling of the population. Specimens analyzed should therefore represent your a general hospital population. Results should span as much of the clinical range of the instrument as possible. Check your instrument specifications.
• Random sampling should include:
specimens with normal values.
abnormal specimens representing various types of leukocyte (WBC) disorders including but not limited to:
leukemias lymphocytosis lymphopenia
granulopenia granulocytosis
eosiniphilia basophilia
abnormal specimens representing various types of erythrocyte (RBC) disorders including but not limited to:
hemoglobinopathy
polycythemia
microcytic anemias macrocytic anemias
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-10 of 54 @BeckmanCoulter
abnormal specimens representing various types of platelet (Plt) disorders, including but not limited to:
thrombocytosis thrombocytopenia
morphological platelet disorders • If vote-outs, incomplete computation, partial aspirations or results with
System Messages are observed for any specimen, repeat the analysis of that specimen on the evaluation instrument. Submit both the original and repeated values.
• Printed results for all specimens analyzed on all instruments should be obtained and labeled appropriately. For each specimen, collect the following data:
Printout from the Evaluation instrument(s)
Printout from the reference instrument
Manual differential results, note the total number of cells counted
Any confirmatory results
If instrument has archive feature, archive specimen results to appropriate external media, such as a floppy disk a CD, 3.5 inch diskette or a flash drive and include with the printed results
Define Review Limits and Review Protocol
To establish review limits and a review protocol for your laboratory’s patient population and specific needs:
Step Action
1 Define and record a Test instrument review protocol on the Differential Review Limit and Protocol Worksheet provided.
a. Record the instrument-generated flags that require further action.
b. Define the high and low limits your laboratory uses to take slide review action on an automated differential result.
c. Be specific, define less than and greater than with "or equal to" if applicable; e.g. if >10 % is your limit for Eosinophils, then 10 % is normal or negative and 11 % is abnormal or positive. Depending upon your protocol, results falling outside these abnormal limits require either a smear scan or a full manual differential.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-11 of 54@BeckmanCoulter
EXAMPLE ONLY – DO NOT FILL IN NOW DIFFERENTIAL REVIEW LIMIT AND PROTOCOL WORKSHEET
1. Define Test Instrument Review Protocol (Abnormal Limits) a. All instrument generated flags will be used. List exceptions below.
_______________________________________________________________ _______________________________________________________________ _______________________________________________________________ _______________________________________________________________
b. Operator Defined Flags
Instrument Review Limits
Low High WBC RBC Hgb HCT MCV MCH MCHC RDW CV RDW SD Plt MPV Ne % Ly % Mo % Eo % Ba % NRBC % Ne # Ly # Mo # Eo # Ba # NRBC #
2. Define Reference Manual Differential Abnormal Limits Segmented Neutrophils Metamyelocytes Band Neutrophils Myelocytes Lymphocytes Promyelocytes Variant Lymphocytes Blasts Monocytes NRBCs Eosinophils RBC morphology Basophils Plt morphology Other (specify)________ WBC morphology
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-12 of 54 @BeckmanCoulter
How to Establish a Truth Table
The automated differential’s sensitivity, specificity and efficiency in distinguishing normal and abnormal specimens are determined using Truth Table analysis. The manual differential is used as a reference to assess whether the instrument has correctly classified the specimen as normal (released without further review-autovalidation) or abnormal (requiring review).
To perform a Truth Table Analysis: Step Action
1 For each specimen analyzed on the Beckman Coulter Analyzer:
a. Classify the instrument results as Normal (“negative”) if no flags or messages are present.
b. Classify the instrument results as Abnormal (“positive”) if flags or messages are present.
2 Perform a manual differential on all samples evaluated in Step 1.
a. Classify as Abnormal (“positive”) any morphological or distributional abnormality observed. b. Classify as Normal (“negative”) any manual differential count in which all cell types are normal and within your established limits.
3 Categorize each specimen as one of the following four categories and record the results on the differential Truth Table Worksheet:
True Negative (TN): Normal (negative) by both test (new instrument) and reference (manual diff) methods. True Positive (TP): Abnormal (positive) by both test (new instrument) and reference (manual diff) methods. False Negative (FN): Normal (negative) by test method (new instrument) and abnormal (positive) by reference (manual diff) method.
False Positive (FP): Abnormal (positive) by test method (new instrument) and normal (negative) by reference method (manual diff).
4 Calculate and record on the Differential Truth Table Worksheet the following:
a. True Negative: the percentage of specimens considered normal (negative) by both the test method (new instrument) and the reference method (manual diff).
% TN = (# True Negatives / total number of specimens) x 100
b. True Positive: the percentage of specimens considered abnormal (positive) by both the test method (new instrument) and the reference method (manual diff).
% TP = (# True Positives / total number of specimens) x 100
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-13 of 54@BeckmanCoulter
c. False Negative: the percentage of specimens considered normal by the test method (new instrument) and abnormal by the reference method (manual diff).
Galen/Gambino
% FN = (# False Negatives / total number of specimens) x 100
CLSI
% FN = (# True Negative / (True Negative+False Positives) x 100
d. False Positive: the percentage of specimens considered abnormal by the test method (new instrument) and normal by the reference method (manual diff).
Galen/Gambino
% FP = (# False Positives / total number of specimens) x 100
CLSI
% FP = (False Positive/(False Positive+TN)) X 100 e. Specificity: the percentage of manual differential normals that were
also normal on the instrument.
Specificity = # True Negatives ÷ # (True Negative+False Positives) x 100
f. Sensitivity: the percentage of manual differential abnormals that were also abnormal on the instrument.
Sensitivity = # True Positives ÷ # (True Positives+False Negatives) x 100
g. Predictive Value of a Negative Test (PVN): the percentage of specimens that were normal on both the instrument and the manual differential.
PVN = # True Negatives ÷ # (True Negatives + False Negatives) x 100
h. Predictive Value of a Positive Test (PVP): the percentage of specimens that were abnormal on both the instrument and the manual differential.
PVP = # True Positives ÷ # (True Positives + False Positives) x 100
i. Agreement: the percentage of specimens correctly categorized by the automated differential.
[# (True Positives + True Negatives) ÷ total number of specimens] x 100
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-14 of 54 @BeckmanCoulter
IMPORTANT
The Truth Table format can be used for a variety of purposes. It is important to understand that the statistics reflect the patient mix that is used during the study. The focus of an Implementation Truth Table is to optimize Sensitivity. Focus on the False Negative Samples. Evaluate if there is a particular flag that could be added or modified so that these same samples would be flagged. Determine what is an acceptable balance between False Negative (missed significant findings) and False Positive samples (increased review rate). The responsibility to determine acceptable performance of above data lies with the evaluating laboratory.
EXAMPLE ONLY – DO NOT FILL IN NOW
DIFFERENTIAL TRUTH TABLE WORKSHEET
1. Classify differentials into one of four categories and total each column.
REFERENCE (Manual Differential)
Normal (Negative)
Abnormal (Positive)
Total
Normal (Negative)
(TN) (FP)
Abnormal (Positive)
(FN) (TP) TEST
(new instrument)
Total
2. Calculate the following parameters.
PARAMETER CALCULATION RESULT (%)
% TN Number of TN/Total
% TP Number of TP/Total
% FN Number of FN/Total
% FP Number of FP/Total
Specificity [# TN/ # (TN + FP)] x 100
Sensitivity [# TP/ # (TP + FN)] x 100
Predictive Value of a Negative Test [# TN/ # (TN + FN)] x 100
Predictive Value of Positive Test [# TP/ # (TP + FP)] x 100
Agreement [(# TP + # TN)/Total] x 100
3. Reviewed by ___________________________________ Date ____________
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-15 of 54@BeckmanCoulter
Practice
Note: This practice may not be exactly the way you would perform in your own lab. Many times a first pass using instrument generated flags only is evaluated first. The data is reevaluated adding in laboratory defined limits.
Step Action
1 There are 11 examples of LH 500 results on pages ITT-13 through ITT-33. The laboratory doing this Truth Table Study, uses the following Review Criteria:
Any parameter or instrument generated flag is a positive. (i.e., suspect, definitive, action, critical, high, low, etc).
The example manual differential criteria are from this “lab” are: (an abnormal condition exists if any of the values below are found to be present)
Atypical Lymph: > 6 NRBC: > 2 Bands: ≥ 12 Meta: ≥ 1
Myelo: ≥ 1 Blast: ≥ 1
2
Work through the data in the eleven examples keeping this Lab’s Criteria in mind. Decide whether each is a True Positive, True Negative, False Positive, False Negative (using the definitions on page ITT-4). Be prepared to discuss the reasons for your choices.
You have the right to exclude from the study any data which you think might misrepresent or skew the conclusions.
3 Collate your decisions and enter the totals for each category on the worksheet below.
DIFFERENTIAL TRUTH TABLE WORKSHEET
TEST (LH 500) Normal (Negative) Abnormal (Positive) Total
Normal (Negative)
True Negative
False Positive
Abnormal (Positive)
False Negative
True Positive
REFERENCE
(Manual Differential)
Total
Check your answers using the answer key on page I-40 of 54.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-16 of 54 @BeckmanCoulter
1. Using the data from the Truth Table Worksheet, calculate the following
parameters. PARAMETER CALCULATION RESULT (%)
% TN Number of TN/Total
% TP Number of TP/Total
% FN Number of FN/Total
% FP Number of FP/Total
Specificity [# TN / # (TN + FP)] x 100
Sensitivity [# TP / # (TP + FN)] x 100
Predictive Value of a Negative Test
[# TN / # (TN + FN)] x 100
Predictive Value of a Positive Test
[# TP / # (TP + FP)] x 100
Agreement [(# TP + # TN) / Total] x 100
Show these calculations to an Applications Specialist as part of the Skill Check.
Thought Questions
1 If your flagging limits are set correctly, which two categories on the Truth Table should contain most of your samples?
__________________________________________________________
2 If a laboratory’s False Positive rate is around 40%, what corrective action do you think the laboratory should take?
__________________________________________________________
3 If a laboratory’s False Negative is around 35%, what corrective action do you think the laboratory should take?
__________________________________________________________
4 If agreement is around 40%, what does this mean to the laboratory?
__________________________________________________________
The above questions will be part of a discussion with your Applications Specialist.
If you understand the definitions of all terms associated with the Truth Table and can perform the required calculations, you are ready for the Skill Check at the end of this module. Refer to the Rumke chart on the next page to answer one of the questions.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-17 of 54@BeckmanCoulter
Rumke Binomial Distribution Table 95 % Confidence Limits for various percentages of blood cells of a given type as determined by differential counts.
a n = 100 n = 200 n = 500 n = 1000 0 0 - 2 0 - 2 0 - 1 0 - 1 1 0 - 6 0 - 4 0 - 3 0 - 2 2 0 - 8 0 - 6 0 - 4 1 - 4 3 0 - 9 1 - 7 1 - 5 2 - 5 4 1 - 10 1 - 8 2 - 7 2 - 6 5 1 - 12 2 - 10 3 - 8 3 - 7 6 2 - 13 3 - 11 4 - 9 4 - 8 7 2 - 14 3 - 12 4 - 10 5 - 9 8 3 - 16 4 - 13 5 - 11 6 - 10 9 4 - 17 5 - 14 6 - 12 7 - 11 10 4 - 18 6 - 16 7 - 13 8 - 13 15 8 - 24 10 - 21 11 - 19 12 - 18 20 12 - 30 14 - 27 16 - 24 17 - 23 25 16 - 35 19 - 32 21 - 30 22 - 28 30 21 - 40 23 - 37 26 - 35 27 - 33 35 25 - 46 28 - 43 30 - 40 32 - 39 40 30 - 51 33 - 48 35 - 45 36 - 44 45 35 - 56 37 - 53 40 - 50 41 - 49 50 39 - 61 42 - 58 45 - 55 46 - 54 60 49 - 70 52 - 67 55 - 65 56 - 64 70 60 - 79 63 - 77 65 - 74 67 - 73 75 65 - 84 68 - 81 70 - 79 72 - 78 80 70 - 88 73 - 86 76 - 84 77 - 83 90 82 - 96 84 - 94 87 - 93 87 - 92
100 96 - 100 98 - 100 99 - 100 99 - 100 a the observed percentage of cells of a given type n the total number of cells counted
Rumke, CL. The statistically expected variability in differential leukocyte counting. College of American Pathologists CAP Conference, Aspen, CO, 1977; 39-45
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-18 of 54 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-19 of 54@BeckmanCoulter
TRUTH TABLE EXAMPLE # 001 LH 500 Results: Test Result Flag Test Result Flag Test Result Flag
WBC: 23.0 aH RBC: 2.56 PLT: 854 aH NE%: 87.3 aH HGB: 8.0 MPV: 7.3 LY%: 5.4 HCT: 22.6 MO%: 6.4 MCV: 88.1 EO%: 0.8 MCH: 31.3 BA%: 0.1 MCHC: 35.5
NRBC%: 0.0 RDW: 15.8 aH NE#: 20.0 LY#: 1.2 RET% 1.92 MO#: 1.5 RET#: .0064 EO#: 0.2 IRF: 0.33 BA#: 0.0 MRV 100.7
NRBC#: 0.0 LH 500 Generated Messages:
Suspect/Definitive WBC: Suspect/Definitive RBC: Suspect/Definitive PLT: NE Blast 1+ Anisocytosis Thrombocytosis Imm.NE2 & Imm.NE1 Leukocytosis Neutrophilia
Comments / Decision Rule Generated:
[Perform a Manual diff] (Due to the presence of NE Blast & Imm. NE 2 flags)
LH 500 Out-Come: (Place a ‘+’ or ‘-‘ in the boxes below.) Any flag / message indicates an ‘instrument positive’ out-come.
WBC: RBC: PLT: CBC ( + / - ) DIFF ( + / - )
Manual Differential
Neut 71 Atyp Lym Morphology (RBC & PLT): Lymph 6 Bands 13 Slight Aniso Mono 7 Meta 1 Increased Plts Eos 1 Myelo 1 Baso 0 ProMyelo NRBC Blast
Manual Differential Out Come: Circle below ( + / - ) with comments. ( + ): ( - ):
Truth Table LH 500 Result COMMENTS: Reference: NEG POS Manual NEG TN FP Diff POS FN TP
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-20 of 54 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-21 of 54@BeckmanCoulter
TRUTH TABLE EXAMPLE # 002 LH 500 Results: Test Result Flag Test Result Flag Test Result Flag
WBC: 12.8 RBC: 3.50 PLT: 490 NE%: 76.6 HGB: 10.1 MPV: 7.5 LY%: 12.9 HCT: 29.3 MO%: 8.5 MCV: 83.6 EO%: 1.7 MCH: 28.9 BA%: 0.3 MCHC: 34.6
NRBC%: 0.0 RDW: 14.3 NE#: 9.8 LY#: 1.7 RET% 1.60 MO#: 1.1 RET#: .0609 EO#: 0.2 IRF: 0.35 BA#: 0.0 MRV 100.1
NRBC#: 0.0 LH 500 Generated Messages:
Suspect/Definitive WBC: Suspect/Definitive RBC: Suspect/Definitive PLT:
Comments / Decision Rule Generated:
LH 500 Out-Come: (Place a ‘+’ or ‘-‘ in the boxes below.) Any flag / message indicates an ‘instrument positive’ out-come.
WBC: RBC: PLT: CBC ( + / - ) DIFF ( + / - )
Manual Differential
Neut 80 Atyp Lym Morphology (RBC & PLT): Lymph 12 Bands Mono 5 Meta Eos 2 Myelo Baso 1 ProMyelo NRBC Blast
Manual Differential Out Come: Circle below ( + / - ) with comments. ( + ): ( - ):
Truth Table
LH 500 Result COMMENTS: Reference: NEG POS Manual NEG TN FP Diff POS FN TP
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-22 of 54 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-23 of 54@BeckmanCoulter
TRUTH TABLE EXAMPLE # 003 LH 500 Results: Test Result Flag Test Result Flag Test Result Flag
WBC: 10.0 aH RBC: 3.17 PLT: 213 NE%: 45.9 HGB: 10.1 MPV: 7.3 LY%: 50.0 aH HCT: 30.1 MO%: 1.8 MCV: 91.6 EO%: 1.5 MCH: 31.9 BA%: 0.3 MCHC: 34.8
NRBC%: 0.0 RDW: 12.9 NE#: 4.6 LY#: 5.1 RET% 1.71 MO#: 0.2 RET#: .0696 EO#: 0.2 IRF: 0.54 BA#: 0.0 MRV 105.2
NRBC#: 0.0 LH 500 Generated Messages:
Suspect/Definitive WBC: Suspect/Definitive RBC: Suspect/Definitive PLT: Variant Lymph
Comments / Decision Rule Generated:
[Perform a diff scan for variant forms]
LH 500 Out-Come: (Place a ‘+’ or ‘-‘ in the boxes below.) Any flag / message indicates an ‘instrument positive’ out-come.
WBC: RBC: PLT: CBC ( + / - ) DIFF ( + / - )
Manual Differential
Neut 17 Atyp Lym 4 Morphology (RBC & PLT): Lymph 73 Bands Mono 5 Meta Eos 1 Myelo Baso 0 ProMyelo NRBC 0 Blast
Manual Differential Out Come: Circle below ( + / - ) with comments. ( + ): ( - ):
Truth Table
LH500 Result COMMENTS: Reference: NEG POS Manual NEG TN FP Diff POS FN TP
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-24 of 54 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-25 of 54@BeckmanCoulter
TRUTH TABLE EXAMPLE # 004 LH 500 Results: Test Result Flag Test Result Flag Test Result Flag
WBC: 11.3 RBC: 3.48 PLT: 223 NE%: 76.6 HGB: 10.9 MPV: 8.6 LY%: 15.1 HCT: 32.0 MO%: 6.4 MCV: 92.0 EO%: 1.5 MCH: 31.3 BA%: 0.3 MCHC: 34.0
NRBC%: 0.0 RDW: 14.1 NE#: 8.7 LY#: 1.7 RET% 0.47 MO#: 0.7 RET#: .0123 EO#: 0.2 IRF: 0.52 BA#: 0.0 MRV 114.3
NRBC#: 0.0 LH 500 Generated Messages:
Suspect/Definitive WBC: Suspect/Definitive RBC: Suspect/Definitive PLT:
Comments / Decision Rule Generated:
LH 500 Out-Come: (Place a ‘+’ or ‘-‘ in the boxes below.) Any flag / message indicates an ‘instrument positive’ out-come.
WBC: RBC: PLT: CBC ( + / - ) DIFF ( + / - )
Manual Differential
Neut 80 Atyp Lym Morphology (RBC & PLT): Lymph 14 Bands Mono 3 Meta 1 Eos 2 Myelo Baso 0 ProMyelo NRBC Blast
Manual Differential Out Come: Circle below ( + / - ) with comments.
( + ): ( - ):
Truth Table
LH 500 Result COMMENTS: Reference: NEG POS Manual NEG TN FP Diff POS FN TP
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-26 of 54 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-27 of 54@BeckmanCoulter
TRUTH TABLE EXAMPLE # 005 LH 500 Results:
Test Result Flag Test Result Flag Test Result Flag WBC: 0.4 cL RBC: 2.99 PLT: 4 cL NE%: 15.8 R HGB: 9.3 MPV: 6.0 LY%: 60.5 RaH HCT: 26.2 MO%: 5.3 R MCV: 87.3 EO%: 18.4 R MCH: 31.0 BA%: 0.0 R MCHC: 35.5
NRBC%: 0.0 R RDW: 16.3 aH NE#: 0.1 R LY#: 0.2 R RET% 3.38 MO#: 0.0 R RET#: .1058 EO#: 0.1 R IRF: 0.42 BA#: 0.0 R MRV 105.4
NRBC#: 0.0 R LH 500 Generated Messages:
Suspect/Definitive WBC: Suspect/Definitive RBC: Suspect/Definitive PLT: Low Event # 1+ Anisocytosis Thrombocytopenia Leukopenia Lymphocytosis Eosinophilia
Comments / Decision Rule Generated:
[Perform a manual diff] (due to the presence of the ‘R’ flag on diff count)
LH 500 Out-Come: (Place a ‘+’ or ‘-‘ in the boxes below.) Any flag / message indicates an ‘instrument positive’ out-come.
WBC: RBC: PLT: CBC ( + / - ) DIFF ( + / - )
Manual Differential
Neut 10 Atyp Lym Morphology (RBC & PLT): Lymph 60 Bands Mono 10 Meta Eos 20 Myelo NOTE: Only 10 cells were Baso ProMyelo counted on the manual diff. NRBC Blast
Manual Differential Out Come: Circle below ( + / - ) with comments. ( + ): ( - ):
Truth Table
LH 500 Result COMMENTS: Reference: NEG POS Manual NEG TN FP Diff POS FN TP
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-28 of 54 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-29 of 54@BeckmanCoulter
TRUTH TABLE EXAMPLE # 006 LH 500 Results: Test Result Flag Test Result Flag Test Result Flag
WBC: 9.3 RBC: 5.17 PLT: 257 NE%: 66.5 HGB: 13.8 MPV: 9.2 LY%: 24.1 HCT: 40.3 MO%: 6.8 MCV: 78.0 EO%: 2.5 MCH: 26.6 BA%: 0.1 MCHC: 34.1
NRBC%: 2.0 RDW: 14.3 NE#: 6.2 LY#: 2.2 RET% 0.82 MO#: 0.6 RET#: .0376 EO#: 0.2 IRF: 0.26 BA#: 0.0 MRV 113.5
NRBC#: 0.2 LH 500 Generated Messages:
Suspect/Definitive WBC: Suspect/Definitive RBC: Suspect/Definitive PLT:
Comments / Decision Rule Generated:
LH 500 Out-Come: (Place a ‘+’ or ‘-‘ in the boxes below.) Any flag / message indicates an ‘instrument positive’ out-come.
WBC: RBC: PLT: CBC ( + / - ) DIFF ( + / - )
Manual Differential
Neut 62 Atyp Lym Morphology (RBC & PLT): Lymph 24 Bands 5 Slight Aniso Mono 7 Meta Eos 2 Myelo Baso 0 ProMyelo NRBC 2 Blast
Manual Differential Out Come: Circle below ( + / - ) with comments. ( + ): ( - ):
Truth Table
LH 500 Result COMMENTS: Reference: NEG POS Manual NEG TN FP Diff POS FN TP
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-30 of 54 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-31 of 54@BeckmanCoulter
TRUTH TABLE EXAMPLE # 007 LH 500 Results: Test Result Flag Test Result Flag Test Result Flag
WBC: 6.8 RBC: 4.06 PLT: 322 NE%: 65.7 HGB: 12.1 MPV: 9.5 LY%: 26.0 HCT: 35.4 MO%: 7.5 MCV: 87.1 EO%: 0.5 MCH: 29.9 BA%: 0.3 MCHC: 34.3
NRBC%: 0.0 RDW: 13.6 NE#: 4.5 LY#: 1.8 RET% 1.11 MO#: 0.5 RET#: .0449 EO#: 0.0 IRF: 0.35 BA#: 0.0 MRV 112.9
NRBC#: 0.0 LH 500 Generated Messages:
Suspect/Definitive WBC: Suspect/Definitive RBC: Suspect/Definitive PLT:
Comments / Decision Rule Generated:
LH 500 Out-Come: (Place a ‘+’ or ‘-‘ in the boxes below.) Any flag / message indicates an ‘instrument positive’ out-come.
WBC: RBC: PLT: CBC ( + / - ) DIFF ( + / - )
Manual Differential
Neut 65 Atyp Lym 3 Morphology (RBC & PLT): Lymph 21 Bands Mono 7 Meta Eos 3 Myelo Baso 1 ProMyelo NRBC 0 Blast
Manual Differential Out Come: Circle below ( + / - ) with comments. ( + ): ( - ):
Truth Table
LH 500 Result COMMENTS: Reference: NEG POS Manual NEG TN FP Diff POS FN TP
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-32 of 54 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-33 of 54@BeckmanCoulter
TRUTH TABLE EXAMPLE # 008 LH 500 Results: Test Result Flag Test Result Flag Test Result Flag
WBC: 6.7 RBC: 2.97 PLT: 129 NE%: 75.0 HGB: 10.1 MPV: 11.0 LY%: 13.3 HCT: 27.8 MO%: 6.7 MCV: 93.6 EO%: 4.9 MCH: 33.9 BA%: 0.1 MCHC: 36.2
NRBC%: 0.0 RDW: 14.4 NE#: 5.0 LY#: 0.9 RET% 2.63 MO#: 0.4 RET#: .0906 EO#: 0.3 IRF: 0.40 BA#: 0.0 MRV 113.5
NRBC#: 0.0 LH 500 Generated Messages:
Suspect/Definitive WBC: Suspect/Definitive RBC: Suspect/Definitive PLT: Imm. NE 1
Comments / Decision Rule Generated:
[Perform a diff scan] (Scan for the presence of Bands)
LH 500 Out-Come: (Place a ‘+’ or ‘-‘ in the boxes below.) Any flag / message indicates an ‘instrument positive’ out-come.
WBC: RBC: PLT: CBC ( + / - ) DIFF ( + / - )
Manual Differential
Neut 72 Atyp Lym Morphology (RBC & PLT): Lymph 13 Bands 9 Mono 4 Meta Eos 2 Myelo Baso 0 ProMyelo NRBC 0 Blast
Manual Differential Out Come: Circle below ( + / - ) with comments.
( + ): ( -):
Truth Table
LH 500 Result COMMENTS: Reference: NEG POS Manual NEG TN FP Diff POS FN TP
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-34 of 54 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-35 of 54@BeckmanCoulter
TRUTH TABLE EXAMPLE # 009 LH 500 Results: Test Result Flag Test Result Flag Test Result Flag
WBC: 5.5 RBC: 2.73 PLT: 300 NE%: 83.3 HGB: 8.3 MPV: 6.8 LY%: 6.4 HCT: 24.1 MO%: 8.6 MCV: 88.2 EO%: 1.4 MCH: 30.4 BA%: 0.3 MCHC: 34.4
NRBC%: 0.0 RDW: 14.8 NE#: 4.6 LY#: 0.4 RET% 1.98 MO#: 0.5 RET#: .0754 EO#: 0.1 IRF: .036 BA#: 0.0 MRV 108.4
NRBC#: 0.0 LH 500 Generated Messages:
Suspect/Definitive WBC: Suspect/Definitive RBC: Suspect/Definitive PLT: Imm. NE1 Imm. NE2
Comments / Decision Rule Generated:
[Perform a manual diff ] (review slide for immature cells)
LH 500 Out-Come: (Place a ‘+’ or ‘-‘ in the boxes below.) Any flag / message indicates an ‘instrument positive’ out-come.
WBC: RBC: PLT: CBC ( + / - ) DIFF ( + / - )
Manual Differential
Neut 76 Atyp Lym Morphology (RBC & PLT): Lymph 4 Bands 15 Mono 9 Meta Eos 0 Myelo Baso 0 ProMyelo NRBC 0 Blast
Manual Differential Out Come: Circle below ( + / - ) with comments.
( + ): ( - ):
Truth Table
LH 500 Result COMMENTS: Reference: NEG POS Manual NEG TN FP Diff POS FN TP
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-36 of 54 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-37 of 54@BeckmanCoulter
TRUTH TABLE EXAMPLE # 010 LH 500 Results: Test Result Flag Test Result Flag Test Result Flag
WBC: 5.9 RBC: 4.60 PLT: 222 NE%: 40.3 HGB: 12.8 MPV: 9.0 LY%: 48.7 aH HCT: 37.4 MO%: 6.2 MCV: 81.3 EO%: 4.1 MCH: 27.9 BA%: 0.7 MCHC: 34.3
NRBC%: 0.0 RDW: 12.6 NE#: 2.4 LY#: 2.9 RET% 1.16 MO#: 0.4 RET#: .0533 EO#: 0.2 IRF: 0.25 BA#: 0.0 MRV 105.1
NRBC#: 0.0 LH 500 Generated Messages:
Suspect/Definitive WBC: Suspect/Definitive RBC: Suspect/Definitive PLT: Variant Lymph
Comments / Decision Rule Generated:
[Perform a manual diff] (review slide for the presence of atypical cells)
LH 500 Out-Come: (Place a ‘+’ or ‘-‘ in the boxes below.) Any flag / message indicates an ‘instrument positive’ out-come.
WBC: RBC: PLT: CBC ( + / - ) DIFF ( + / - )
Manual Differential
Neut 46 Atyp Lym 9 Morphology (RBC & PLT): Lymph 37 Bands Mono 3 Meta Eos 4 Myelo Baso 1 ProMyelo NRBC 0 Blast
Manual Differential Out Come: Circle below ( + / - ) with comments.
( + ): ( - ):
Truth Table
LH 500 Result COMMENTS: Reference: NEG POS Manual NEG TN FP Diff POS FN TP
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-38 of 54 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-39 of 54@BeckmanCoulter
TRUTH TABLE EXAMPLE # 011 LH 500 Results: Test Result Flag Test Result Flag Test Result Flag
WBC: 14.4 RBC: 3.77 PLT: 190 NE%: 79.1 HGB: 11.1 MPV: 7.8 LY%: 14.7 HCT: 32.2 MO%: 5.8 MCV: 85.6 EO%: 0.2 MCH: 29.4 BA%: 0.2 MCHC: 34.3
NRBC%: 0.0 RDW: 14.9 NE#: 11.4 LY#: 2.1 RET% 1.64 MO#: 0.8 RET#: .0767 EO#: 0.0 IRF: 0.33 BA#: 0.0 MRV 120.3
NRBC#: 0.0 LH 500 Generated Messages:
Suspect/Definitive WBC: Suspect/Definitive RBC: Suspect/Definitive PLT:
Comments / Decision Rule Generated:
LH 500 Out-Come: (Place a ‘+’ or ‘-‘ in the boxes below.) Any flag / message indicates an ‘instrument positive’ out-come.
WBC: RBC: PLT: CBC ( + / - ) DIFF ( + / - )
Manual Differential
Neut 76 Atyp Lym Morphology (RBC & PLT): Lymph 15 Bands Mono 8 Meta Eos 1 Myelo Baso 0 ProMyelo NRBC 0 Blast
Manual Differential Out Come: Circle below ( + / - ) with comments.
( + ): ( - ):
Truth Table
LH 500 Result COMMENTS: Reference: NEG POS Manual NEG TN FP Diff POS FN TP
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-40 of 54 @BeckmanCoulter
Answer Key for Examples
Category Number in Category Example #
True Pos 3 1, 9, 10
True Neg 4 2, 6, 7, 11
False Pos 2 3, 8
False Neg 1 4
#5 was discarded due to low diff cells counted, but would be a FP.
If you used an n=10, then your calculations should be:
%TN 4/10 40% %TP 3/10 30% %FN 1/10 10% %FP 2/10 20%
Specificity 4/(4+2) 66.6% Sensitivity 3/(3+1) 75%
Predictive Value of Neg. Test 4/(4+1) 80%
Predictive Value of Pos. Test 3/(3+2) 60%
Agreement (3+4)/10 70%
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-41 of 54@BeckmanCoulter
INTRODUCTION TO TRUTH TABLES
SKILL CHECK
Using the RUMKE BINOMIAL DISTRIBUTION TABLE as a reference:
1. If you count a 100-cell diff where the Monocyte % on a smear is found to be 10%, according to Rumke the actual % could be between_________________ If you now count a 200-cell diff on the same smear, according to Rumke, the actual % could be between _________________________________________
2. According to the CLSI EP9A standard, the minimum number of specimens to analyze for method comparison is _________________________________
3. Why should the collection time for specimens for comparative studies span a period of several days? _______________________________________________________________
4. Based on the LH 500 Differential as the TEST and the Manual Differential as the REFERENCE define each of the following terms:
True Negative: _______________________________________________
True Positive: ________________________________________________
False Negative: _______________________________________________
False Positive: _______________________________________________
5. Show your Applications Specialist the Truth Table and calculations that you did in the Practice portion of the module.
6. Discuss the “thought questions” from the Practice portion of the module with your Applications Specialist.
ITT
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-42 of 54 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-43 of 54@BeckmanCoulter
MENTOR / TRAINER
OBJECTIVES Given an operating LH 500, training module, and appropriate supplies for administering modules:
• Format a training plan for your laboratory
• Verify skill performance for each trainee
• Have a course Facilitator and/or Applications Specialist verify your performance as a mentor/trainer
Why Is It Important?
In order to have competent LH 500 operators in your laboratory, it is important that they be grounded in the basics of instrument operation. As the mentor/trainer for your laboratory, it is your responsibility not only to train, but to mentor your colleagues as they progress through the skills required to become a competent, LH 500 operator.
Resources
• LH 500 training modules with Skill Checks • Training Checklist • Coulter Hematology Innovations Prerequisite
MT
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-44 of 54 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-45 of 54@BeckmanCoulter
INFORMATION / PRACTICE SECTION
Training Plan
Before you start…HAVE A PLAN! Refer to the forms on pages I-49 & I-50 of 54. The plan should be specific about what is to be done and what resources, including people, will be involved. Your plan should also contain a timeline and how success will be measured.
Create a Training Plan
Create a written training plan outline for your facility. Include basic training topics (for all) as well as more advanced training topics (selected individuals). Basic topics should include: Startup, Running Controls, Reviewing Controls, Running Patient Samples, Reagent Setup and Replacement, Shutdown.
You may also want to consider including Workstation Basics and Using HELP as part of basic topics. Any other topics to include are up to you.
More advanced topics for selected individuals are up to you, but you may want to consider: Setting up Control files, History Logs, Calibration, etc.
NOTE: Topics called-out are not necessarily separate modules in your Training Guide.
Step Action
1 List the topics you plan to cover in each section.
2 Describe how you will do the training for each topic. List the resources you will need and the techniques (verbal, module, practice, demo, summaries, etc.) you plan to use.
3 List the important points that need to be covered in each topic.
4 Describe how you will verify that a trainee learned the topics listed (observation, skill check, etc.)
5 Describe the documentation you will use to show completed training for an individual (checklist provided or your own sign off sheet).
6
List all personnel to be trained.
• What shift do they work and when you expect them to train (does a 3rd shift person stay late to meet your schedule or do you come in early to meet theirs)
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-46 of 54 @BeckmanCoulter
7
Devise a training outline.
• Include specific objectives, let them know what you expect • Include procedural guides and other aids (flowcharts, etc) • Include skill checks or other methods of measuring
proficiency • Include a place for the trainee and trainer to document that
the trainee has demonstrated proficiency for each objective
8 Propose a detailed timeline.
• When training will start • Who will train when • When all training will be completed including practice time
9 State how proficiency will be documented and continuously monitored.
Hints Before You Start
Step Action
1 Let trainees know that you expect them to become competent LH 500 operators
2 Have supplies ready: copies of modules, Skill Checks, Summary Sheets, etc.
3 Provide practice, practice, and more practice for trainees!
4 Watch trainees, but let them do the “hands-on” stuff!
5 It’s OK for trainees to make a mistake! Don’t jump in too quickly, unless there is a real danger involved!
6 Offer encouragement and positive reinforcement!
7 Have trainees tell you what they learned about the topics
8 Training is an ongoing process, not a one-time event!
9 Encourage pride in a job well done.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-47 of 54@BeckmanCoulter
Train a Person in the Basics
Step Action
1 Choose a person to train in all of the basic topics listed in your training plan.
(You may or may not be able to complete this part of the practice while at the Education Center. In that case, an Applications Specialist will observe you, check off your Skill Check, and Initial your Personal Progress Summary.)
A Facilitator will observe as you do the training:
2 Following your training plan, provide the trainee with any supplies and materials needed.
3 Using the technique(s) you outlined, have the trainee learn all the topics on your list.
4 Verify each topic learned according to your outline.
5 Document your training on a checklist.
The Skill Check will be a review of your training plan. Observations and feedback will be provided on how you conducted your training session.
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-48 of 54 @BeckmanCoulter
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-49 of 54@BeckmanCoulter
LH 500 Series Training Plan
1. Trainees (list all to be trained on this instrument):
Name Shift Security Level
Training Start Date
Training End Date
Training Complete
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-50 of 54 @BeckmanCoulter
2. Training Materials to be used:
3. How will proficiency be documented?
4. How will proficiency be continuously monitored?
5. Training timeline:
Task Start Date
End Date Task Start
Date End Date
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-51 of 54@BeckmanCoulter
MENTOR / TRAINER
SKILL CHECK
Applications Specialist Review of Training Plan
Training plan contains a list of the basic topics to teach to everyone.
_______________________________________________________________
Training plan includes a list of more advanced topics to teach to selected individuals.
_______________________________________________________________
Training plan contains a list of the important points to cover in each topic.
_______________________________________________________________
Training plan describes how a trainee will be verified.
_______________________________________________________________
There is a checklist and sign off sheet to document each individual’s training.
_______________________________________________________________
Continue on next page>>>>
MT
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-52 of 54 @BeckmanCoulter
Applications Specialist Observation of Training
Trainer followed their training plan.
_______________________________________________________________
Trainer used the techniques outlined in their plan.
_______________________________________________________________
Trainer had all supplies on hand
_______________________________________________________________
Trainer coached the trainee offering corrective action, as needed
_______________________________________________________________
Trainer offered encouragement and positive reinforcement
_______________________________________________________________
Trainer verified each topic learned according to their plan.
_______________________________________________________________
Trainer documented the training using their checklist.
_______________________________________________________________
Congratulations!! Once you finish the Mentor/Trainer module, it means you are verified to train your other colleagues without having an observer. You are well on your way to obtaining Key Operator Certification. The next step is to train your colleagues and submit your documentation of that training. Keep up the good work!
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-53 of 54@BeckmanCoulter
NOTES:
COULTER® LH 500 TRAINING MODULES
PN 624762CA.1 (June 2012) Professional Development
I-54 of 54 @BeckmanCoulter