12 Lead EKG Interpretation
Transcript of 12 Lead EKG Interpretation
Objectives
• Identify the correct lead placement for performing a 12 lead EKG
• Identify and interpret heart rhythm and differing blocks
• Identify extreme axis deviations
• Identify and interpret bundle branch blocks
• Interpret MI location based on ST elevation
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ECG Pre-test
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• Is this ECG normal? A. True B. False
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• Is this ECG normal? A. True B. False - Wenkebach
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• Would you call a STEMI alert? A. Yes B. No
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• Would you call a STEMI alert? A. Yes B. No - RBBB
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• Does this person need anticoagulation? A. Yes B. No
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• Does this person need anticoagulation? A. Yes – Atrial fibrillation B. No
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• The initial treatment of choice for this rhythm is cardioversion. A. True B. False
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• The initial treatment of choice for this rhythm is cardioversion. A. True B. False – SVT (try adenosine first)
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• This ECG explains the patient’s complaints of dizziness. A. True B. False
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• This ECG explains the patient’s complaints of dizziness. A. True – sinus bradycardia with heart rate of 37 bpm B. False
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How did you do?
OK – let’s get started!!
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Monitoring vs Assessing
• Monitoring – EKG leads can be placed anywhere
– Allows for identification of VF and Asystole
• Assessing – EKG leads MUST be placed in specific locations
– Allows for interpretation of changes in the electrical conduction (depolarization and repolarization changes) i.e., ischemia.
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Patient Preparation
• Provide a level of privacy
• Remove the patient’s shirt
• Shave the chest
• Prep the skin
– Remove the dead epithelials
• Electrically non-conductive
• Place the patient in a hospital gown
YES! – Women Too
• Remove the bra
• Use a sheet to drape the patient
• Diaphoresis
– Dry the chest
– Use alcohol
– Use benzene
Patient Position
• Place the patient in the correct position to acquire the EKG
– Supine Recommended
– Sitting up is fine
• Ask the patient to hold still
• Keep their hands down by their side
– May need to hold the patient’s hands
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Lead Placement
• 12 Lead ECG’s use 10 Electrodes
– one electrode on each limb
– 6 electrodes on the left chest
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Lead Placement
• Limb Lead go on the LIMBS!
– LA Left ARM
– RA Right ARM
– LL Left LEG
– RL Right LEG
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Left Chest Lead Placement
• Precordial Leads (V leads or MCL leads)
– V1 4th intercostal space, right of sternum
– V2 4th intercostal space, left of the sternum
– V3 between V4 and V2
– V4 5th intercostal space, left of sternum
– V5 5th intercostal space, left of sternum
– V6 5th intercostal space, left of sternum
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Left Chest EKG
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The Normal Conduction System
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Normal ECG
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Waveforms
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QRS Labeling
Q Waves
First negative deflection after the
P waves in any lead
Q wave
QRS Labeling
R Waves
First positive deflection after the
P waves in any lead
"R"
QRS Labeling
S Wave
Negative deflection below the
baseline after an "R" or "Q" wave
s
QS
s
QRS Labeling
The "J" Point
Also called the" juncture" point.Where the qrs complex endsand the ST segment begins
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QRS Labeling
QRS MorphologiesCan you label these complexes?
R
QS
q
R
s
r
S q
R
r
S
R’
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Now YOU Do It!
• Video of proper ECG lead placement
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Interpretation
• Develop a systematic approach to reading EKGs and use it every time
• The system recommended is: – Rate
– Rhythm (including intervals and blocks)
– Axis
– Ischemia
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Rate
• Rule of 300- Divide 300 by the number of boxes between each QRS = rate
Number of big boxes
Rate
1 300
2 150
3 100
4 75
5 60
6 50
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Estimate of Heart Rate
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What is the heart rate?
(300 / 6) = 50 bpm
www.uptodate.com
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Rate
• HR of 60-100 per minute is normal
• HR > 100 = tachycardia
• HR < 60 = bradycardia
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Differential Diagnosis of Tachycardia
Tachycardia Narrow Complex Wide Complex
Regular ST
SVT
Atrial flutter
ST w/ BBB
SVT w/ BBB
VT
Irregular A-fib
A-flutter w/ variable conduction
MAT
A-fib w/ BBB
A-fib w/ WPW
VT
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Rhythm
• Sinus
– Originating from SA node
– P wave before every QRS
– P wave in same direction as QRS
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Normal Intervals
• PR – 0.20 sec (less than one
large box)
• QRS – 0.08 – 0.10 sec (1-2 small
boxes)
• QT – 450 ms in men, 460 ms in
women
– Based on sex / heart rate
– Half the R-R interval with normal HR
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Causes of Prolonged QT
• Causes – Drugs
– Hypocalcemia, hypomagnesemia, hypokalemia
– Hypothermia
– AMI
– Congenital
– Increased ICP
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Consequences of Prolonged QT
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Blocks
• AV blocks – First degree block
• PR interval fixed and > 0.2 sec
– Second degree block, Mobitz type 1 • PR gradually lengthened, then drop QRS
– Second degree block, Mobitz type 2 • PR fixed, but drop QRS randomly
– Type 3 block • PR and QRS dissociated
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What is this rhythm?
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What is this rhythm?
First degree AV block
PR is fixed and longer than 0.2 sec
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What is this rhythm?
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What is this rhythm?
Type 1 second degree block (Wenckebach)
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What is this rhythm?
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What is this rhythm?
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What is this rhythm?
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What is this rhythm?
3rd degree heart block (complete)
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Section Two
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Axis
• Axis: predominant flow of electricity through the heart
• We look at the QRS complexes for ventricular axis
III II
I
NORMAL AXIS
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Hexaxial Reference System
• Divided into 6 part grid – Based on the leads
• I • II • III • aVR • aVF • aVL
• Degrees of electrical flow – 0 to +180 – 0 to -180
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ECG with Normal Axis
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Extreme Right Axis
-90 to -180 degrees
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ECG with Extreme Right Axis
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Differential Diagnosis of Extreme Right Axis
• Ventricular tachycardia
• Hyperkalemia (acute renal failure)
• Apical MI
• Right Ventricular Hypertrophy
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Hemiblocks
• A hemiblock is a block of one of the fascicles of the left bundle branch.
• Hemiblock is an ECG diagnosis
Left Bundle Branch
Posterior Hemifascicle
Anterior Hemifascicle
Hemiblocks
• Anterior Hemiblock
– pathological left axis
– negative deflection in leads II and III
– small q in lead I, small r in lead III
– common block
– 4x higher mortality rate in AMI
Left Bundle Branch
Anterior Hemifascicle
Anterior Hemiblock
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Hemiblocks
• Posterior Hemiblock
– right axis deviation
– small r in lead I, small q in lead III
– high mortality rate when with an AMI
– two coronary arteries involved
Left Bundle Branch
Posterior Hemifascicle
Posterior Hemiblock
• Very rare and much more dangerous.
• Posterior hemifascicle has redundant blood supply from two separate coronary arteries.
• In setting of an acute MI, two coronary arteries would have to be occluded proximally in order to create this condition.
Posterior Hemiblock
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Rapid Axis
• Rapid Axis and Hemiblock Chart
Lead I Lead II Lead IIIAxis
Normal Axis
0 - 90
PhysiologicLeft Axis0 to -40
Pathological Left Axis
-40 to -90
Right Axis
90 - 180
Extreme RightAxis
Anterior
Hemiblock
Hemiblock
Posterior
no man's land
Ventricular in
origin
Comments
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Test Your Knowledge!
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Normal Axis
Leftward Axis (normal)
Left Anterior Hemiblock
Left Posterior Hemiblock
Extreme Right Axis
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Ventricular Tachycardia
• 12 Lead ECG and VT:
• You may be the only one to see the rhythm
• A 12 lead ECG of VT is very helpful to the cardiologist looking for the cause
• More benefit and less risk in knowing for sure
Ventricular Tachycardia
• Rate 110 -250 bpm
• Wide complex (>0.12 – 3 small blocks)
• Regular
• AV dissociation
• Extreme Right Axis Deviation + Upright MCL-1
I III II III
MCL-1
I
II III
EXTREME RIGHT AXIS ERAD
V1
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VT
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Bundle Branch Blocks
• A Bundle Branch Block is a block of one of the two bundle branches, left or right
• A Bundle Branch is a fascicle of electrical conduction system cells designed to carry impulses to the ventricles
• Bundle Branches facilitate “syncytium” or both ventricles contracting in sync.
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Bundle Branch Blocks
• Turn Signal Theory
– easy way to determine left or right BBB
– use lead V1
– QRS complex must be at least .12sec (120 ms) or wider (or 3 little squares)
Bundle Branch Blocks
• Turn Signal Theory
– Use lead V1 or MCL-1 IF QRS > 120 ms (.12 sec)
– Circle the J point
– Draw line back into the complex, then up or down with the terminal deflection
– shade in the triangle made by this line
– Arrow points up - turn signal up - Right BBB
– Arrow points down - turn signal down - Left BBB
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Bundle Branch Blocks
• Turn Signal Theory
1 2 3
LBBB
RBBB
QRS Labeling
QRS MorphologiesCan you label these complexes?
RBBB
LBBB LBBB
LBBB
RBBB RBBB
Can You Identify These Bundle Branch Blocks?
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Right Bundle Branch Block and Hemiblocks can occur together!
RBBB + Anterior Hemiblock (most commonly seen)
Left Bundle Branch
Anterior Hemifascicle
Right Bundle Branch
Section Three
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Myocardial Blood Supply
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AMI Myocardial Blood Supply
• Right Coronary Artery
• Inferior Wall (LV)
• Posterior Wall (LV)
• Right Ventricle
• SA and AV Node
• Posterior fascicle of LBB
Myocardial Blood Supply
• Left Anterior Descending
• Anterior Wall of LV
• Septal Wall
• Bundle of His and BB
Myocardial Blood Supply
• Circumflex
• Lateral Wall of LV
• Rarely SA and AV nodes
• Posterior Wall of LV
Clinical Manifestations of
Arterial Thrombosis
UA/NSTEMI: Partially-occlusive thrombus
(primarily platelets)
Intra-plaque
thrombus (platelet
dominated)
Plaque core
ST MI: Occlusive thrombus (platelets,
red blood cells, and fibrin)
Intra-plaque
thrombus (platelet
dominated)
Plaque core
SUDDEN DEATH
Adapted from Davies MJ. Circulation. 1990; 82 (supl II): 30-46.
ECG Signs of Ischemia
• Usually indicated by ST changes
– Elevation = Acute infarction
– Depression = Ischemia
• Can manifest as T wave changes
• Remote infarction can be shown by q waves
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ECG Progression in Infarct
• ECG pattern in AMI = continuum that extends from normal to full infarct.
• First: T wave flips in early ischemia.
• Then: ST elevation either flat or tombstoning (flipped T wave may disappear).
• Finally: We see Q waves.
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12 Lead ECG and AMI
• Benefits of 12 Lead ECG’s
– Highly specific (90% + confidence)
– If it shows an MI, there probably is an MI
– Rapid identification of MI in early stages
– Can commit to treat with ECG, history and physical exam
– Complications can be identified
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12 Lead ECG and AMI
• Limitations
– Only 46 - 50 % sensitive (may miss 50%)
• Increase sensitivity by looking at the whole heart
– Diagnostic quality necessary
– Training needed to read the 12 leads
– ECG evidence is only one piece of the puzzle
– Some non-MI conditions look like MI’s
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12 Lead ECG and AMI
A NORMAL 12 LEAD ECG DOES NOT RULE OUT A MYOCARDIAL
INFARCTION
If there is suspicion for MI, repeat the ECG
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Acute Ischemia
• Area of ischemia is more negative than surrounding normal tissue • Causes ST depression; T wave is flipped • Causes repolarization to occur along abnormal pathway
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Acute Injury
• Zone of injury does not repolarize completely
• Remains more positive than surrounding tissue, leading to ST elevation
• T remains flipped (abnormal repolarization paths along injured/ischemic areas of myocardium)
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Cardiac Location of Event
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Posterior MI Is there a lead for that?
• You only find what you’re looking for!
– Move V4, V5, V6
– 5th intercostal space
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Posterior MI
• Look for anterior reciprocal changes
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What about the right side? RV infacts
• Move V4 to the right side same location
– 5th intercostal space anterior axillary
Occur in conjunction with inferior MIs
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Where/What is It?
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Where/What is It?
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Where/What is It?
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Scorecard
• The guidelines call for a 90 minute medical contact to balloon time.
• Very important to perform immediate or in-field ECG to make earlier diagnosis to start the STEMI alert.
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Interventional Plan for EMS
• Out of hospital 12 lead
• Early notification of hospital
• O2, NTG, pain control
• ASA, Heparin
• Thrombolytic prescreen
• Transport to PCI Center
Definitive AMI Treatment Percutaneous Coronary Intervention
When to Consider Thrombolytics
• Acute MI patients in whom first medical contact to balloon time is like to exceed 2 hours.
• Cath lab is not available.
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How do thrombolytics or more appropriately fibrinolytics work?
t-PA
• A naturally occurring blood protein Plasminogen activates the production of plasmin – a digestive enzyme
• Presence of a clot causes the endothelia cells to secrete tissue plasminogen activator which starts the breakdown of the clot
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How do fibrinolytics work?
• Fibrinolytics
– Destroy the clot
at the level of the fibrin.
– Activate the production
of plasmin to cause the
digestion of the clot
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EMS and the AMI: Making a difference
• Early recognition and treatment
• Early activation of cath lab
• Once infarction begins 500 myocardial cells die each second
• Salvage myocardium
• Decreased incidence of CHF
• Maintain active lifestyles
Infarct Caveats
• Anterior Wall MI
– most lethal (highest mortality)
– can suddenly develop, CHB, VF or VT
– if seen with hemiblocks or BBB, place quick combo pads on the patient and prepare for the worst
– can extend to septum (anteroseptal) or lateral (anterolateral)
– nitrates are great, fluids are spared
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Infarct Caveats
• Inferior MI
– Most common seen. Can be fatal
– 50% have posterior and right ventricle involved
– Patients may have bradycardia and hypotension
– Could also have 1st degree or Mobitz 1 blocks
– Nausea is common, phenergan or compazine
– Use nitrates with caution, may need fluids
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Infarct Imitators
• Left Bundle Branch Block
– late depolarization makes ST elevation difficult to distinguish
– LBBB considered a non-diagnostic ECG
• Left Ventricular Hypertrophy
– won’t have reciprocal changes
• Early Repolarization
(…but is it really benign?)
Benign early repolarization
Who gets it?
• 2-5% of the general population (Wellens, 2008)
• Usually the young and physically fit
• More prominent in African-Americans
• Generally disappears with advancing age
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What does it look like?
Red arrows: concave up ST-segment elevation anteriorly Blue arrows: hyperdynamic, symmetrical, concordant T-waves 119
Classic findings
1. J-point “notching”
2. Concave-up ST segment (smiley face)
3. ST segment elevation from baseline in V2-V5, typically <3mm
4. Large, symmetrically concordant T-waves in leads with STE
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Can we tease it out?
• The degree of ST segment elevation is thought to be indirectly proportional to the degree of sympathetic tone
• In other words, the more relaxed the patient, the more pronounced the ST segment elevation (and vice versa)
• If you truly want to test your patient, get their heart rate up and look at the ST segment
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14yo M w/ palpitations HR: 64
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1. Notched J-point 2. Concave down ST
elevation in precordial leads
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Same patient after asking him to do 2min of jumping jacks in the room to try and get his heart rate up… HR 83 (up 20bpm from previous) 124
HR 64 HR 83
The ST segment is NOT fixed in pts w/ BER and changes from EKG to EKG and with the degree of sympathetic strain On the right, note the complete resolution of the ST elevation but maintenance of the J-point notching in V4
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Early Repolarization
• Should be a diagnosis of exclusion and should ALWAYS be placed in clinical context!!!
• The above was taken in a patient with difficulty breathing and chest pain…and is an Myocardial Infarction -- NOT Early Repolarization!!! 126
Pericarditis
• Pericarditis is an inflammation of the pericardium (sac that surrounds the heart).
• This often occurs as a result of a viral infection.
• However, this can cause severe chest pain and can lead to ST elevation in all leads.
• Therefore, it is important to distinguish acute pericarditis from acute myocardial infarction.
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Pericarditis
• Diffuse ST elevation
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Pericarditis
• PR segment depression, usually in lead II
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Pericarditis Treatment
• NSAIDs
• Colchicine
• Occasionally steroids
• Anticoagulation could cause a hemorrhagic pericardial effusion – life threatening.
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Section 4
• ECG Tests are next!
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ECG Quiz
EKG #1
1. What is the rhythm? a. V-Tach b. A-Fib c. A-flutter d. normal 133
EKG #2
1. What does this EKG represent? a. pericarditis b. myocarditis c. digitalis effect d. inferior wall ST-elevation MI
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EKG #3
1. What is the rhythm? a. V-Tach b. A-Fib c. A-flutter d. normal 135
EKG #4
1. What does this EKG represent? a. sius bradycardia b. sinus tachycardia c. 2nd degree AV block d. complete heart block
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EKG #5
1. What does this EKG represent? a. V-fib b. left bundle branch block c. right bundle branch block d. normal 137
EKG #6
1. What does this EKG represent? a. V-fib b. left bundle branch block c. right bundle branch block d. normal
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EKG #7
1. What does this EKG represent? a. V-fib b. A-fib c. Supraventricular tachycardia d. normal
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EKG #8
1. What does this EKG represent? a. V-fib b. A-fib c. A-flutter d. V- tach
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EKG #9
1. What does this EKG represent? a. V-fib b. sinus bradycardia c. complete heart block d. sinus tachycardia 141
EKG #10
1. What does this EKG represent? a. V-fib b. left bundle branch block c. right bundle branch block d. normal
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EKG #11
1. What diagnostic test would be the best to order next? a. Echo b. CTA c. Cath 143
EKG #12
1. What therapy would be the best to order next? a. Thrombolytic therapy b. Emergent cath and PCI c. Toradol IV
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STEMI Alerts
Would You Activate the STEMI
Alert Team?
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YES!
• This is an large anteroseptal, anterior,
and anterolateral MI
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Would You Activate the STEMI
Alert Team?
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NO!
• This is Pericarditis – inflammation of the
sac around the heart.
– Diffuse ST elevation
– PR segment depression
– Younger
– Recent viral syndrome
– Hurts worse with deep breaths or lying
down
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Would You Activate the STEMI
Alert Team?
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YES!
• This is new-onset Left Bundle Branch
Block
• Also note the lateral ST elevation
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Would You Activate the STEMI
Alert Team?
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Previous ECG (from 2011)
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NO!
• This is a chronic Left Bundle Branch
Block
• Marker of CAD, heart valve disease, as
well as hypertension.
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Would You Activate the STEMI
Alert Team?
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NO!
• This is a PACED rhythm!
• No interpretation of the ECG is possible.
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Would You Activate the STEMI
Alert Team?
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NO!
• This is Early Repolarization.
– Early repolarization is a common ECG variant,
characterized by either terminal QRS slurring
(the transition from the QRS segment to the ST
segment) or notching (a positive deflection
inscribed on terminal QRS complex) associated
with concave upward ST-segment elevation
and prominent T waves in at least two
contiguous leads.
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NO!
• This is Early Repolarization.
– This benign ECG phenomenon is noted in 1%
to 2% of the adult population and generally
occurs in the absence of myocardial disease.
– People with this mostly consist of men, young
adults, athletes, and people of African American
heritage
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160
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Would You Activate the STEMI
Alert Team?
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YES!
• This is an inferior – posterior – lateral MI
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Would You Activate the STEMI
Alert Team?
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YES!
• This is Ventricular Tachycardia – and
likely is related to MI
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Would You Activate the STEMI
Alert Team?
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YES!
• This is an acute Anterior Wall MI with
Ventricular Bigeminy
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Would You First Activate the
STEMI Alert Team?
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NO!
• Shock that!
• While MI may be the reason for Vfib, other
reasons also need to be excluded.
• Consider Hypothermia Therapy in route
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Section 5
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Review of MHCA Protocols
• STEMI
• Stroke
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Goals for STEMI
• First Medical Contact (FMC) to PCI < 90 minutes
• Door to ECG time < 10 minutes
• Door In / Door Out Time < 30 minutes
• FMC to Non-PCI hospital to PCI < 120 minutes
EMS specific
• Ideal for all chest pain patients to have in-field ECG
• Pre-hospital Activation of STEMI network
• Diversion to STEMI hospital 172
EMS Requirements
Equip all ambulances in state with ECG machines by 2012
Ambulance services should obtain EKG within 15 minutes for
typical chest pain in anyone > 30 years, and
atypical chest pain in all patients 50 and older
EMS should interpret and transfer ECG to affiliated ED
EMS personnel need training / certification in ECG interpretation of STEMI
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ECG + Symptoms
• Chest pain,fullness, or pressure
• Radiation to jaw, teeth, shoulder, arm, or back
• Shortness of breath
• Epigastric discomfort
• Sweating
• Dizziness
• Cognitive impairment
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EMS Requirements
+ EKG patients directly to PCI hospital if 90 minutes window obtainable from first med contact to PCI AND patient is hemodynamically stable
+ EKG patients directly to PCI hospital if 90 minutes window obtainable from first med contact to PCI BUT patient is hemodynamically UNSTABLE
Go to nearest ED
Activate Air Transport immediately for transfer to PCI center
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EMS Requirements
If no pre-hospital ECG available for a chest pain patient who arrives at a non-PCI hospital
Keep the patient on the EMS stretcher until ECG performed
If EKG results + transfer to PCI hospital with SAME ambulance if patient hemodynamically stable
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STEMI Network (24/7) PCI Centers
Jackson
St. Dominic
MBHS
UMMC
CMMC
Hattiesburg
Forrest General Hospital
Wesley
Meridian
Jeff Anderson Hospital
Rush Hospital
Tupelo
North Mississippi Medical Center
Oxford
Baptist Memorial Hospital North Mississippi
South Haven Baptist Memorial Hospital Desoto
Corinth Magnolia Regional Health Center
Vicksburg River Region Hospital
Greenville Delta Regional Medical Center
Columbus Baptist Memorial Hospital Golden
Triangle Pascagoula
Singing River Health Systems Gulfport
Gulfport Memorial Hospital McComb
South West Regional Medical Center
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EMS Territorial Boundaries Broken
It is imperative for EMS to be able to cross county lines when necessary for reperfusion.
EMS services should cross-cover for adjacent EMS in another county.
A “Heart Attack” should take priority over many non-life threatening medical conditions.
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Goals for STEMI
• First Medical Contact (FMC) to PCI < 90 minutes
• Door to ECG time < 10 minutes
• Door In / Door Out Time < 30 minutes
• FMC to Non-PCI hospital to PCI < 120 minutes
EMS specific
• Ideal for all chest pain patients to have in-field ECG
• Pre-hospital Activation of STEMI network
• Diversion to STEMI hospital 180
Phases of EMS Management of the Stroke Patient
• Activation of 911 system
• EMS response
• On scene assessment and stabilization
• Selection of appropriate destination
• Transport
• Pre-arrival stroke alert to receiving emergency department (as early as possible)
• Delivery of patient and information
• PI feedback
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Scene Assessment
• General assessment – Consider alternative causes of neurologic deficit
• Focused neurologic assessment to include FAST – Face
– Arm
– Speech
– Time
• Sensitivity 80%/specificity 30%
• Time of onset - may not be available at hospital
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Treatment
• Stabilization
– Standard protocols (check vital signs, ECG, glucose, hydration and treat as needed)
– Scene time should be minimized but prehospital care should not be sacrificed for less scene time
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Select Appropriate Destination
• Transport to the nearest hospital with an appropriate level of stroke care – Level may vary as resources change
– Utilize knowledge of local facilities
• Window of opportunity – 4 ½ hours to completion of fibrinolytic treatment (earlier more effective than later)
• Useful time – 3 ½ hours until time of arrival at stroke capable hospital
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EMS Goals for Stroke
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1) Initial assessment, transport ASAP:
ABCs ; Obtain time of symptom onset (Last time known well) _______; Source of information ________; Contact information _________.
2) Administer high concentration oxygen, as needed, to maintain O2 Sat >94 percent.
3) Position patient with head/shoulders elevated to 15-30 degrees (unless contraindicated).
4) Maintain NPO.
5) Blood glucose < 60, treat per protocol.
6) Do not treat high blood pressure without physician approval.
7) Perform Stroke Scale – Cincinnati Stroke Scale.
8) Transport patient to the appropriate facility:
a. Transport patient to the closest hospital capable of treating the patient with IV Alteplase (Stroke Capable or Primary/Comprehensive Stroke Center). Hospitals not able to diagnose and treat stroke patients (Level 4 hospitals) may be by-passed. EMS may use discretion based on transport time or other unforeseen factors.
b. Consider transport of the stroke patient with severe symptoms (hemiplegia, aphasia, neglect, stably intubated) to a Comprehensive Stroke Center if symptom onset to hospital arrival time is greater than 3 hours and less than 6 hours.
c. Transport patient to the closest appropriate facility if unstable (e.g., cardiac arrest, unstable airway).
9) IV NS KVO once en route.
10) EKG once en route.
11) Notify receiving facility of estimated arrival time of acute stroke patient, Stroke Scale finding, and time of onset. 187
Section 6
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EMS Cardiac
Pharmacology
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Oxygen
• Indications
– Any suspected cardiopulmonary emergency
– Saturate hemoglobin with oxygen
– Reduce anxiety & further damage
– Note: Pulse oximetry should be monitored
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Oxygen
• Precautions
– Pulse oximetry inaccurate in:
• Low cardiac output
• Vasoconstriction
• Hypothermia
– NEVER rely on pulse oximetry!
– Too much oxygen can make some patients with emphysema quit breathing
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Aspirin
• Indications
– Administer to all patients with ACS, particularly reperfusion candidates
• Give 325 mg as soon as possible, non-coated preferred
– Blocks formation of thromboxane A2, which causes platelets to aggregate
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Aspirin
• Precautions
– Many patients are allergic to aspirin – be sure to ask!
– Does not provide blood thinning effects in all people (aspirin resistance)
– Relatively contraindicated in patients with active bleeding
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Thienopyridines (Brilinta, Effient,Plavix)
• Indications
– Use as a second anti-platelet agent in patients with ACS, particularly reperfusion candidates
– Blocks ADP activation of platelets
– Usually given as a bolus dose
• Brilinta – 180 mg (MHCA preferred agent)
• Plavix (clopidogrel) – 600 mg
• Effient – 60 mg
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Thienopyridine
• Precautions
– Plavix does not provide blood thinning effects in all people (plavix resistance)
– Effient should not be given to patients with previous stroke or TIA
– Relatively contraindicated in patients with active bleeding
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Glycoprotein IIb/IIIa Inhibitors
• Indications
– Inhibit the glycoprotein IIb/IIIa receptor in the membrane of platelets, inhibiting platelet aggregation
– Can be used as an early second anti-platelet agent rather than thienopyridines, especially in those who can’t swallow or have nausea and vomiting.
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Glycoprotein IIb/IIIa Inhibitors
• Eptifibatide (integrilin)
– Within 10 minutes after bolus, > 90% of platelets are inhibited
– Platelet function recovers within 4 to 8 hours after discontinuation
– Dose
• 180 mcg/kg IV bolus, then 2 mcg/kg/min infusion
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Glycoprotein IIb/IIIa Inhibitors
• Precautions
– Integrilin (eptifibatide) is a derivative of snake venom
– Use in precaution in those patients with previous snake bites
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Heparin
• Indications
– Inhibits thrombin generation by factor Xa inhibition and also inhibit thrombin indirectly by formation of a complex with antithrombin III
– Exists in two forms
• Unfractionated
• Low molecular weight
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Unfractionated Heparin
• Dosing
– Initial bolus 60 IU/kg
• Maximum bolus: 4000 IU
• Check efficacy of dose with ACT
• Not always effective
– Continuous infusion at 800-1200 units/hour
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Low Molecular Weight Heparin Lovenox (enoxaparin)
• Dosing in ACS in those proceeding to PCI or to receive thrombolytics
– 30 mg IV
• Bolus is active for 3 hours
• Initial dosing in medically treated patients
– 1 mg/kg SQ
• Dose is active for 12 hours
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Heparins
• Precautions
– Contraindications: active bleeding; recent intracranial, intraspinal or eye surgery; severe hypertension; bleeding disorders; gastroinintestinal bleeding
– DO NOT use if platelet count is below 100 000
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Nitroglycerin
• Indications
– Chest pain of suspected cardiac origin
– Unstable angina
– Complications of AMI, including congestive heart failure, left ventricular failure
– Hypertensive crisis or urgency with chest pain
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Nitroglycerin
• What it does…
– Decreases pain of ischemia
– Increases venous dilation
– Decreases venous blood return to heart
– Decreases preload and cardiac oxygen consumption
– Dilates coronary arteries
– Increases cardiac collateral flow
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Nitroglycerin
• What it does NOT do…
– Prevent heart attacks
– Save lives
– Limit infarct size
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Nitroglycerin
• Dosing – Sublingual Route
• 0.3 to 0.4 mg; repeat every 5 minutes
– Aerosol Spray • Spray for 0.5 to 1.0 second at 5 minute intervals
– IV Infusion • Infuse at 10 to 20 µg/min
• Route of choice for emergencies
• Titrate to effect
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Nitroglycerin
• Precautions
– Use extreme caution if systolic BP <90 mm Hg
– Use extreme caution in Inferior and/or RV infarctions – Suspect RV infarction with inferior ST changes
– Limit BP drop to 10% if patient is normotensive
– Limit BP drop to 30% if patient is hypertensive
– Watch for headache, drop in BP, syncope, tachycardia
– Tell patient to sit or lie down during administration
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Morphine Sulfate
• Indications
– Chest pain and anxiety associated with AMI or cardiac ischemia
– Acute cardiogenic pulmonary edema (if blood pressure is adequate)
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Morphine Sulfate
• Dosing
– 1 to 4 mg IV (over 1 to 5 minutes) every 5 to 10 minutes as needed
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Morphine Sulfate
• Precautions
– Administer slowly and titrate to effect
– May compromise respiration; therefore use with caution in acute pulmonary edema
– Causes hypotension in volume-depleted patients
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Fibrinolytics
• Indications
– For AMI in adults
• ST elevation or new or presumably new LBBB; strongly suspicious for injury
• Time of onset of symptoms < 12 hours
– For strokes in adelts
• Time of onset of symptoms< 4.5 hours
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Fibrinolytics
• Dosing
– For fibrinolytic use, all patients should have 2 peripheral IV lines
• 1 line exclusively for fibrinolytic administration
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Fibrinolytics
• Dosing for AMI Patients – Tenecteplase (TNKase)
• Bolus 30 to 50 mg
– Alteplase, recombinant (tPA) • Accelerated Infusion
– 15 mg IV bolus – Then 0.75 mg/kg over the next 30 minutes
» Not to exceed 50 mg – Then 0.5 mg/kg over the next 60 minutes
» Not to exceed 35 mg
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Fibrinolytics
• Dosing for Acute Ischemic Stroke – Alteplase, recombinant (tPA)
• Give 0.9 mg/kg (maximum 90 mg) infused over 60 minutes – Give 10% of total dose as an initial IV bolus over 1 minute
– Give the remaining 90% over the next 60 minutes
– Alteplase is the only agent approved for use in Ischemic Stroke patients
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Fibrinolytics
• Precautions
– Specific Exclusion Criteria
• Active internal bleeding (except mensus) within 21 days
• History of CVA, intracranial, or intraspinal within 3 months
• Major trauma or serious injury within 14 days
• Aortic dissection
• Severe uncontrolled hypertension
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Fibrinolytics
• Precautions
– Specific Exclusion Criteria
• Known bleeding disorders
• Prolonged CPR with evidence of thoracic trauma
• Lumbar puncture within 7 days
• Recent arterial puncture at noncompressible site
• During the first 24 hours of fibrinolytic therapy for ischemic stroke, do not give aspirin or heparin
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Amiodarone
• Indications
– Powerful anti-arrhythmic with activity in both atria and ventricles; so that, this drug can be used for atrial fibrillation and VT
– Can be used to prevent recurrent VF
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Amiodarone
• Dosing
– 150 mg bolus dose
• May repeat x 1
– Can also use continual IV infusion
• 1 mg/min x 6 hours, then
• 0.5 mg/min
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Amiodarone
• Precautions
– May produce vasodilation & hypotension
– May have negative inotropic effects
– Terminal elimination
• IV half-life lasts hours
• Oral half-life lasts up to 40 days
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Lidocaine
• Indications
– VT
– Vfib
– Frequent PVCs
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Lidocaine
• Bolus Dosing – Initial dose: 1.0 to 1.5 mg/kg bolus IV
– May repeat bolus x 1 for refractory VF
– May also be given down ET tube
• Maintenance Infusion – 2 to 4 mg/min IV continuous infusion
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Lidocaine
• Precautions
– Reduce maintenance dose (not loading dose) in presence of impaired liver function or left ventricular dysfunction
– Discontinue infusion immediately if signs of toxicity (seizures, confusion) develop
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Atropine Sulfate
• Indications
– Should only be used for bradycardia
• Relative or Absolute
– Used to increase heart rate
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Atropine Sulfate
• Dosing – 1 mg IV push
– Repeat every 3 to 5 minutes
– May give via ET tube (2 to 2.5 mg) diluted in 10 mL of NS
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Atropine Sulfate
• Precautions
– Increases myocardial oxygen demand
– May result in unwanted tachycardia or dysrhythmia
– When given in low doses (<0.4 mg), can cause a paradoxical bradycardia
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Dopamine
• Indications
– Second drug for symptomatic bradycardia (after atropine)
– Use for hypotension (systolic BP 70 to 100 mm Hg) with S/S of shock
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Dopamine
• Dosing
– IV Infusions (Titrate to Effect)
• Low Dose “Renal Dose" – 1 to 5 µg/kg per minute
• Moderate Dose “Cardiac Dose" – 5 to 10 µg/kg per minute
• High Dose “Vasopressor Dose" – 10 to 20 µg/kg per minute
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Dopamine
• Precautions – May use in patients with hypovolemia but only after
volume replacement
– May cause tachyarrhythmias, excessive vasoconstriction
– DO NOT mix with sodium bicarbonate
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Epinephrine
• Indications
– Increases:
• Heart rate
• Force of contraction
• Conduction velocity
– Peripheral vasoconstriction (raises blood pressure)
– Bronchial dilation
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Epinephrine
• Dosing
– 1 mg IV push; may repeat every 3 to 5 minutes
– May use higher doses (0.2 mg/kg) if lower dose is not effective
– Endotracheal Route
• 2.0 to 2.5 mg diluted in 10 mL normal saline
– Profound Bradycardia
• 2 to 10 µg/min infusion (add 1 mg of 1:1000 to 500 mL normal saline; infuse at 1 to 5 mL/min)
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Epinephrine
• Precautions
– Raising blood pressure and increasing heart rate may cause myocardial ischemia, angina, and increased myocardial oxygen demand
– Do not mix or give with alkaline solutions
– Higher doses have not improved outcome & may cause myocardial dysfunction
234
Diltiazem
• Indications
– To control ventricular rate in atrial fibrillation and atrial flutter
– Use after adenosine to treat refractory PSVT in patients with narrow QRS complex and adequate blood pressure
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Diltiazem
• Dosing
– Acute Rate Control
• 10 to 20 mg (0.25 mg/kg) IV over 2 minutes
• May repeat in 15 minutes at 20 to 25 mg (0.35 mg/kg) over 2 minutes
– Maintenance Infusion
• 5 to 15 mg/hour, titrated to heart rate
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Diltiazem
• Precautions – Do not use calcium channel blockers for tachycardias of
uncertain origin
– Avoid calcium channel blockers in patients with Wolff-Parkinson-White syndrome, in patients with sick sinus syndrome, or in patients with AV block without a pacemaker
– Expect blood pressure drop resulting from peripheral vasodilation
– Concurrent IV administration with IV ß-blockers can cause severe hypotension or heart block
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Question 1
• Which of the following is an adverse reaction to nitroglycerin? A) Hypertension B) Hypotension C) Lacrimation D) Arrhythmias
238
Question 1
• Which of the following is an adverse reaction to nitroglycerin? A) Hypertension B) Hypotension C) Lacrimation D) Arrhythmias
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Question 2
• Which of the following must be given within 4.5 hours of the beginning of a stroke?
A. Thrombolytics
B. Anti-platelets
C. Heparin
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Question 2
• Which of the following must be given within 4.5 hours of the beginning of a stroke?
A. Thrombolytics
B. Anti-platelets
C. Heparin
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Question 3
• Which of the following agents is most efficacious in the conversion of acute AF into sinus rhythm?
a. Metoprolol
b. Digoxin
c. Amiodarone
d. Diltiazem
e. Esmolol
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Question 3
• Which of the following agents is most efficacious in the conversion of acute AF into sinus rhythm?
a. Metoprolol
b. Digoxin
c. Amiodarone
d. Diltiazem
e. Esmolol
243
Question 4
• The following are true for aspirin, except:
a. Aspirin is indicated in combination with warfarin in patients at high risk for mechanical valve thrombosis
b. Clopidogrel should be administered to aspirin-intolerant patients acutely with an STEMI
c. Aspirin is indicated in acute thrombotic stroke
d. Aspirin is FDA approved for primary prevention of MI.
244
Question 4
• The following are true for aspirin, except:
a. Aspirin is indicated in combination with warfarin in patients at high risk for mechanical valve thrombosis
b. Clopidogrel should be administered to aspirin-intolerant patients acutely with an STEMI
c. Aspirin is indicated in acute thrombotic stroke
d. Aspirin is FDA approved for primary prevention of MI.
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Question 5
• Appropriate upfront medical therapy in a previously healthy 51 year old man having a STEMI includes all of the following except:
a. Aspirin
b. Heparin
c. Lipitor
d. Brilinta
246
Question 5
• Appropriate upfront medical therapy in a previously healthy 51 year old man having a STEMI includes all of the following except:
a. Aspirin
b. Heparin
c. Lipitor
d. Brilinta
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CONCLUSIONS
• Be constantly alert—patients can change in seconds
• Know your drugs---use resources
• Remember that every drug, even OTC drugs, have the potential to result in a serious adverse reaction
CONCLUSIONS
• Never leave the sending facility unless you feel thoroughly comfortable with your patient and with the medications you are being asked to administer or monitor
• Make sure that you are thoroughly prepared for any complication
• Know where possible diversion hospitals are located
• Use your EMS medical director whenever necessary
CONCLUSIONS
Questions?
The End
• Thank you for your time today in learning the interpretation of ECGs.
• With your new knowledge and proficiencies, patients of Mississippi are in better hands.
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