Standard and Metrology Needs for Surgical Robotics - for web
Transcript of Standard and Metrology Needs for Surgical Robotics - for web
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Standard and Metrology Needs for Surgical Robotics
Standard and Metrology Needs for Surgical Robotics
William J. Peine, Ph.D.Mechanical Engineering
Purdue University
November 2006
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Surgical Robotic RevolutionSurgical Robotic Revolution
Enhance dexterity and precision of Minimally Invasive Surgery (MIS)
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Minimally Invasive Surgery (MIS)Minimally Invasive Surgery (MIS)
• Small 1cm incisions• Inflate abdomen with CO2
• Endoscope visualization• Long shafted instruments
Shortens hospital stay, quicker recovery, less $
Difficult to perform
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Teleoperated Robotic SurgeryTeleoperated Robotic Surgery• Fly-by-wire systems
– Surgeon console outside sterile field– Robotic instruments interact with patient
• Sometimes called master-slave or surgeon assistants systems
• Surgeon is “in-the-loop” with the robot
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Advantage of Surgical RobotsAdvantage of Surgical Robots– Instruments move like the human
hand but are smaller (< 10mm)
– Motion scaling and smoothing
– Better visualization
– Future applications:• Surgical simulation• Image-guided surgery• Telesurgery
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Commercially Available Robotic Systems
Commercially Available Robotic Systems
• Hundreds sold worldwide• Thousands of cases performed annually
Currently only one choice: daVinci from Intuitive Surgical
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Previously Available SystemPreviously Available SystemZeus System from Computer Motion
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Current Clinical ApplicationsCurrent Clinical ApplicationsUrology
– Radical prostatectomy, pyeloplasty, cystectomy, nephrectomy, ureteral reimplantation
Cardiothoracic– Mitral valve repair, endoscopic atrial septal defect closure, Internal
mammary artery mobilization and cardiac tissue ablation
OB/GYN– Hysterectomy and myomectom
Pediatrics– pyeloplasty for ureteropelvic junction obstruction,
gastroesophageal repair GERD, ligation of patent ductusarteriosus
General Surgery– Cholecystectomy, Nissen fundoplication, Heller myotomy, gastric
bypass, donor nephrectomy, adrenalectomy, splenectomy and bowel resection
[Source: Intuitive Surgical Website]
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Projected Market of MRCAS (Medical Robotics and Computer Aided Surgery)Projected Market of MRCAS
(Medical Robotics and Computer Aided Surgery)
Surgical robots are the fastest growing U.S. market segment, with a projected AAGR of over 43% between 2006 and 2011.
BCC Research - 7/1/2006 - 163 Pages - ID: WA1331799
The total worldwide market for MRCAS devices and equipment is expected to be $1.3 billion in 2006 and $5.7 billion by 2011,an AAGR of 34.7%.
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Room for ImprovementRoom for ImprovementdaVinci is a first generation system
– High initial cost ($1.5MM)– High per procedure costs (~$2K)– Large size in OR and sterile field– Lack of haptic feedback– Required training not defined
Current economics are not favorablefor widespread adoption (radical prostatectomy is one exception)
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Standards and Metrology for Surgical Robotics
Standards and Metrology for Surgical Robotics
Surgical robotics is in its infancy:Now is the time to discuss the standard and metrology needs!
• Consistent evaluation metrics will aid device development and safety
• Standards will stimulate the industry and facilitate system integration
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Challenge of Human-Machine Interface Design
Challenge of Human-Machine Interface Design
Haptic Interface
Robotic Instruments
Endoscopic Camera
Visual Display
Computer Control
Computer-assisted surgery introduces many questions and measurement needs…
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Presentation OutlinePresentation Outline1. Limitations of current robotic systems
2. Standard and Metrology needs:– Motion control and precision– Training systems– Haptic feedback
3. Next generation systems– Image-guided robotic surgery – Telesurgery– Endoluminal robotic systems
4. Conclusions and Priorities
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Limitations of Current Robotic Systems
Limitations of Current Robotic Systems
daVinci is a first generation device…
• Too expensive ($1.5MM) for many hospitals
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Large Footprint in ORLarge Footprint in OR
• Requires large OR and dedicated staff• Significant draping and setup
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What do these limitations have to do with metrology needs?
What do these limitations have to do with metrology needs?
• Next generation systems will be smaller and cheaper
• This may reduce the precision and utility
• What performance is “good enough” ?
Metrology!
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Defining Adequate PerformanceDefining Adequate Performance
• Complex answer… depends on– Surgical procedure– Human in-the-loop– Surgeon preference and skill
Developing quantitative evaluation metrics of system performance is still needed!
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Personal Example:Development of
Laprotek Robotic System
Personal Example:Development of
Laprotek Robotic System
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EndoVia Laprotek SystemEndoVia Laprotek System
• Same intended use as daVinci
• Teleoperated surgical robot
• R & L hands for manipulation
• 7 DOF instruments with wrist
• 7 DOF force reflecting master
• Target cost: $250K
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Laprotek Clinical TrialsLaprotek Clinical Trials• Successfully completed
laparoscopic cholecystectomyon 10 patients in Germany
• Obtained UL and CE mark
• Approved for sale in Europe
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• Portable console (master)
• Utilize hospital’s existing laparoscopic equipment
• Monitor for visualization
• Built in storage space
• Handle based interface
• Capable of force feedback
EndoVia Laprotek SystemEndoVia Laprotek System
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• Instrument arms (slave) mount to OR table
• Minimize space in sterile field
• Simplified setup
• Disposable instruments
EndoVia Laprotek SystemEndoVia Laprotek System
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Positional Accuracy of LaprotekPositional Accuracy of Laprotek
Not as good as daVinci…but adequate for lap cholecystectomy.
Causes:• Multiple mechanical connections (slop)• Flexible, disposable instruments • Deflection of support structure• Friction and cable stretch• Variations due to manufacturing
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Precision and UtilityPrecision and Utility
Utility
Precision
Quality of motion, visualization, etc.
Possible motions, ranges, forces,visualization (2D or 3D), number of instruments, etc.
Cost is possible 3rd dimension of graph…
daVinci
ZeusLaprotek
Req’s forGeneralSurgery
Req’s for CardiacSurgery
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Metrology Need for MotionMetrology Need for MotionMeasure overall input vs. output motion
Need new measurement systems and performance metrics…
Input MotionOutput Motion
DXi DYi DZi
Dθi Dfi Dyi
DXo DYo DZoDθo Dfo Dyo
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Metrology Need for MotionMetrology Need for Motion• Develop generic measurement system to
quantify motion of any teleoperated surgical system – Attaches to master handle and instrument tip
• Analyze data to determine:– Precision of motion tracking– Quantify latency, slop, motion limits, nonlinearities– Determine coupling between joints– Quantify smoothness
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Metrology Need for MotionMetrology Need for Motion
• Consistent motion performance metrics could be tied to required precision for specific procedures
• Not Easy! Need to understand human perception and adaptability
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Robotic Surgery Training SystemsRobotic Surgery
Training Systems
As a surgeon, how do you know when you are ready to do your first robotic case?
Robotic surgery is a big change from MIS…– Cases 1-10: STEEP learning curve– Cases 11-100: Patient specific learning– Cases 100-700+: Still learning!
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Surgical Robotic SimulatorsSurgical Robotic Simulators
• Fly-by-wire architecture makes surgical simulators possible
• Create virtual patient and slave robot
Haptic Interface
Robotic Instruments
Endoscopic Camera
Visual Display
Computer Control
Virtual Reality
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Surgical Robotic SimulatorsSurgical Robotic Simulators
• Surgeon uses same haptic interface• Endoscopic images replaced with
computer generated visualizations
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Surgical Robotic SimulatorsSurgical Robotic Simulators
• Improper training can lead to safety hazards
• Need Standards and Metrology to qualify and validate training systems
• Again, LOTS of questions since a human is in the loop…
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Surgical Robotic SimulatorsSurgical Robotic Simulators
• What is adequate simulation performance?
• How faithfully do tissues need to deform?
• How geometrically accurate do the organs models need to be?
• What dynamics or update rates are required?
Obviously, answers depend on training goals…
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Surgical Robotic SimulatorsSurgical Robotic SimulatorsSome Possibilities:
• Is procedure specific training possible?
• Can we teach the difference between proper and improper robot performance?
• Can we determine common mistakes and feedback improvements into future robot designs?
• Can telementoring augment simulation?
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Metrology Needs for Haptic and Force Feedback
Metrology Needs for Haptic and Force Feedback
• Current robotic systems lack force feedback
• Many researchers are working on this…
• Haptic feedback introduces many challenges
Need for Metrology and Standards
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Implementing Force FeedbackImplementing Force Feedback
Bilateral Control Architecture:– Positions (master slave)– Forces (slave master)
Haptic Interface
Robotic Instruments
Computer Control
HandlePosition
DisplayedForces
Desired TipPositions
Measured Tip Forces
Depending on gains and environment, system can go unstable!!!
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Metrology Needs for Haptic Feedback
Metrology Needs for Haptic Feedback
• Consistently quantifying haptic performance will facilitate evaluation and development
• Many questions since there is a human in the loop…
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Metrology Needs for Haptic Feedback
Metrology Needs for Haptic Feedback
• How do you guarantee stability with an undefined environment and operator?
• What range / sensitivity / resolution of forces are needed be displayed?
• How many directions or DOF of forces/torques are needed?
• How faithful do the displayed forces need to be (direction and magnitude)?
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Metrology Needs for Haptic Feedback
Metrology Needs for Haptic Feedback
• How do you reliably measure instrument tip forces at a low cost?
• Are sensory substitution methods acceptable?
• How do you safely implement automatic motions? (Virtual constraints only?)
• Adding distributed contact pressure measurements have the same questions…
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The Future of Robotic SurgeryNext Generation Devices
The Future of Robotic SurgeryNext Generation Devices
Brining tissue manipulation under computer-assisted control enables endless possibilities…
All of these can be improved and shaped by standards and metrology…
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Image-Guided Robotic SurgeryImage-Guided Robotic Surgery
• Combine the positional accuracy of a robot with the 3D medical imaging patient “map”
• Provide enhanced geometric displays of the anatomy and real-time tool locations
• Create haptic “keep out” zones or virtual constraints to avoid delicate tissues
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Robotic TelesurgeryRobotic Telesurgery
• Teleoperation over a distance
• Surgeon and patient can be miles apart
• A few cases have been successful
• Military applications (Trauma Pod)
• Many new safety concerns arise– Communication channel delays or failure– Setup, training, and overall patient safety
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Endoluminal RoboticsEndoluminal Robotics
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Endoluminal RoboticsEndoluminal Robotics• Create tools enabling new procedures• Procedure development will take time
• Applications in bariatrics, upper/lower GI• Transgastric Surgery
“This is the next generation of surgery.…There is no other tool that can do this.”
Dr. Jeffrey PonskySurgical Endoscopist,
Cleveland Clinic
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Transforming Healthcare…Transforming Healthcare…
Computer Aided Surgery adds complexity, but has great potential to…
– Improve patient outcomes and safety– Reduce costs and minimize trauma– Synthesize informatics with intervention– Push healthcare toward prevention
Standards and metrology can greatly facilitate these goals!
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Standard and Metrology Needs for Teleoperated
Surgical Robotic Systems
Suggested Priorities
Standard and Metrology Needs for Teleoperated
Surgical Robotic Systems
Suggested Priorities
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Priority 1Priority 1• Develop system to measure overall
Input / Output motion performance of teleoperated surgical robots.
– Passive position sensing mechanical arm – Optical tracking– Magnetic tracking– Should not require any modifications to robot
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Priority 2Priority 2• Develop performance metrics to
evaluate the overall Input / Output motion of teleoperated surgical robots.
– Quantify dead band, dexterity, motion limits – Evaluate synchronization to visualization– Quantify dynamic behavior and smoothness– Characterize nonlinearity and deformation under
loading
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Priority 3Priority 3• Determine critical performance metrics
for robotic surgical simulators.
– Quantify virtual instrument motion versus actual robot motion
– Quantify accuracy of virtual tissue motion versus real tissue
– Help standardize surgeon evaluation metrics
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Priority 4Priority 4• Determine critical performance metrics
of force and haptic feedback for surgical robotic systems.
– Develop new (disposable?) sensors to measure applied forces at the instrument tip
– Develop system to measure overall Input / Output force feedback performance
– Determine metrics to evaluate virtual constraints and haptic “keep out” zones
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Priority 5Priority 5• Develop communication and data
standards to link surgical robots with medical imaging systems.
– Allow connections between systems in OR– Include safety mechanisms to minimize any one
component’s (i.e. company’s) liability– May have application to telesurgery
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School of Mechanical Engineering