Copyright © CISST ERC, 1999-2003 Engineering Research Center for Computer Integrated Surgical Systems and Technology
Percutaneous Spinal Injections Percutaneous Spinal Injections ––problem presentation for HW1problem presentation for HW1
Gabor Fichtinger, PhDDirector of Engineering,
Associate Research Professor of Computer Science and Radiology
NSFNSF--Funded Engineering Research Center for ComputerFunded Engineering Research Center for Computer--Integrated Surgical Systems and TechnologyIntegrated Surgical Systems and Technology
Copyright © CISST ERC, 1999-2003 Engineering Research Center for Computer Integrated Surgical Systems and Technology
Why Needles? Why Needles?
• Potentially significant impact on medical practice• Minimally invasive (compared to open surgery)
• Faster recovery• Less morbidity• Fewer complications• Lower cost• Repeatable in many indications
• Sharply increasing number of procedures
• Challenging but doable•• Constrained process Constrained process –– formally describableformally describable• Major challenges (in addition to open/lap surgery):
• no visibility• no access• no room to maneuver• no room to recover
Copyright © CISST ERC, 1999-2003 Engineering Research Center for Computer Integrated Surgical Systems and Technology
Why Spine? Why pain management?Why Spine? Why pain management?• In US alone 70% of population affected in
lifetime
• Single most expensive disease
• Pain management: alleviate pain caused by stressed/pressured/pinched spinal nerve by suppressing sensory input at nerve root
• Numb with lidocaine/novocaine etc.
Copyright © CISST ERC, 1999-2003 Engineering Research Center for Computer Integrated Surgical Systems and Technology
Key technical issuesKey technical issues
• Accuracy• Longevity of pain relief• Collateral damage• Pain during procedure• Acceptable ~ 1mm
• Time• Volume/throughput = money• Good surgeons < 10 min• Mediocre/poor surgeons ~ 30-40 min
• Toxic radiation – primarily to physician !!!• Good surgeons < total 5.0 sec beam time• Mediocre/poor surgeons ~ 30 sec beam time
Copyright © CISST ERC, 1999-2003 Engineering Research Center for Computer Integrated Surgical Systems and Technology
Current standard 1: CT guidanceCurrent standard 1: CT guidance
Copyright © CISST ERC, 1999-2003 Engineering Research Center for Computer Integrated Surgical Systems and Technology
Affix IZI Biopsy StripAffix IZI Biopsy Strip Pick Entry and TargetPick Entry and Target
Copyright © CISST ERC, 1999-2003 Engineering Research Center for Computer Integrated Surgical Systems and Technology
Current workflow for CTCurrent workflow for CT--guided procedureguided procedure
1. Put patient in prone to scanner2. Palpate vertebra3. Affix IZI Biopsy Strip fiducials 4. Take thin volume scan5. Select slice of interest6. Pick target and entry7. Determine angle and depth8. Pull out patient to outer laser plane9. Identify entry on skin10. Touch needle to entry point11. Enter needle manually – 22G beveled12. Maintain insertion angle by sight13. Keep needle in laser plane14. Judge current insertion depth by feeling15. Insert contrast (optional)16. Push patient back to scan plane17. Take confirmation CT18. Pull out patient19. Inject therapeutic agent
Copyright © CISST ERC, 1999-2003 Engineering Research Center for Computer Integrated Surgical Systems and Technology
The challengeThe challenge
• Transfer entry, angle and depth over patient• Control all 3-DOF simultaneously during insertion
Copyright © CISST ERC, 1999-2003 Engineering Research Center for Computer Integrated Surgical Systems and Technology
• Mobile• Real-time• Inexpensive• Broad coverage
• Limited rotation• X-ray dose• Low soft tissue contract• Need for calibration• Need for tracking
Siemens
Current standard 2: Current standard 2: CC--arm Fluoroscopyarm Fluoroscopy
☺☺
LLCourtesy of Siemens
Copyright © CISST ERC, 1999-2003 Engineering Research Center for Computer Integrated Surgical Systems and Technology
Current workflow for FluoroCurrent workflow for Fluoro--guided procedureguided procedure
1. Put patient in prone on table2. Palpate vertebra3. Set C-arm in anticipated needle direction4. Turn on beam5. Adjust C-arm angle to optimal6. Reach into beam with needle7. Touch entry with needle tip8. Keep needle perpendicular to beam9. Optimize entry location10. Fulcrum with needle till barrel-view 11. Turn off the beam12. Rotate C-arm by 90 degrees13. Turn beam on, keep beam on14. Insert needle – 22G beveled 15. Monitor insertion depth/deflection in image16. Stop needle at target position17. Insert contrast (optional)18. Take confirmation C-arm image19. Inject therapeutic agent
Copyright © CISST ERC, 1999-2003 Engineering Research Center for Computer Integrated Surgical Systems and Technology
Handheld Needle GuideHandheld Needle Guide
Copyright © CISST ERC, 1999-2003 Engineering Research Center for Computer Integrated Surgical Systems and Technology
CTCT--Mounted Laser GuideMounted Laser Guide
Copyright © CISST ERC, 1999-2003 Engineering Research Center for Computer Integrated Surgical Systems and Technology
CTCT--Mounted Image OverlayMounted Image Overlay
Goal : Simple and radiation-free X-ray vision during surgeryApproach : Merging data model with physical space through half-mirrorFuture work : Cadaver studies in June/July 2003
Funded by Siemens, PI: Fichtinger
Industry partner: Siemens
Copyright © CISST ERC, 1999-2003 Engineering Research Center for Computer Integrated Surgical Systems and Technology
Robot assistance: 3-DOF RCM-PAKY Robot Needle
1-DOF needle injector w/ mounted stereotactic fiducials
Joysticks and safety switches
Amplifier box
Table side robot mount
2-DOF Remote Center of Motionrobot
7-DOF passive arm
Locking arm
Robot: D. Stoianovici
Copyright © CISST ERC, 1999-2003 Engineering Research Center for Computer Integrated Surgical Systems and Technology
Robot registered to CT from a single image using stereotactic frame on the end-effector
Credit: D. Stoianovici, L. Kavoussi, A. Patriciu, S. Solomon (JHU Bayview)
RobotRobot--CT Registration: CT Registration: Stereotactic AdapterStereotactic Adapter
Copyright © CISST ERC, 1999-2003 Engineering Research Center for Computer Integrated Surgical Systems and Technology
CTCT--Robot Registration: Stereotactic Robot Registration: Stereotactic AdapterAdapter
Copyright © CISST ERC, 1999-2003 Engineering Research Center for Computer Integrated Surgical Systems and Technology
Surgical planning…Surgical planning…
Copyright © CISST ERC, 1999-2003 Engineering Research Center for Computer Integrated Surgical Systems and Technology
Robot registered to CT using the scanner’s alignment laser
Credit: D. Stoianovici, L. Kavoussi, A. Patriciu, S. Solomon, JHU Bayviewand G. Fichtinger, ERC
RobotRobot--CT Registration: CT Registration: Scanner’s LaserScanner’s Laser
Copyright © CISST ERC, 1999-2003 Engineering Research Center for Computer Integrated Surgical Systems and Technology
7-DOF passive arm
2-DOF rotation motion stage
1-DOF Needle insertion stage
Mounting bridge
3-DOF Cartesian motion
The URobotics 6The URobotics 6--DOF DOF AccubotAccubot™ robot™ robot
Robot: D. Stoianovici
Copyright © CISST ERC, 1999-2003 Engineering Research Center for Computer Integrated Surgical Systems and Technology
RobotRobot--CT Registration: Optical Tracking CT Registration: Optical Tracking
Copyright © CISST ERC, 1999-2003 Engineering Research Center for Computer Integrated Surgical Systems and Technology
RobotRobot--CT Registration: Optical Tracking CT Registration: Optical Tracking
Copyright © CISST ERC, 1999-2003 Engineering Research Center for Computer Integrated Surgical Systems and Technology
RobotRobot--CT Registration: Fiducial carrier CT Registration: Fiducial carrier attached to attached to spinous spinous processprocess
Copyright © CISST ERC, 1999-2003 Engineering Research Center for Computer Integrated Surgical Systems and Technology
RobotRobot--CC--arm registration: Simple arm registration: Simple fiducialfiducial--based registration in biplane based registration in biplane
fluoroscope fluoroscope
Copyright © CISST ERC, 1999-2003 Engineering Research Center for Computer Integrated Surgical Systems and Technology
Corkscrew fiducials in monoplane Corkscrew fiducials in monoplane fluoroscope fluoroscope
Copyright © CISST ERC, 1999-2003 Engineering Research Center for Computer Integrated Surgical Systems and Technology
Joystick Controlled Robot Under Joystick Controlled Robot Under Fluoroscopy Fluoroscopy