1 / 24

Intrathecal Drug Delivery Systems: Best Practices

Intrathecal Drug Delivery Systems: Best Practices. Alon Y. Mogilner, MD, PhD Director, Center for Neuromodulation NYU Langone Medical Center. Disclosures. Medtronic neurological: Consultant, fellowship/grant support St. Jude Medical: Grant support, consultant Boston Scientific

esma
Download Presentation

Intrathecal Drug Delivery Systems: Best Practices

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Intrathecal Drug Delivery Systems: Best Practices Alon Y. Mogilner, MD, PhDDirector, Center for NeuromodulationNYU Langone Medical Center

  2. Disclosures • Medtronic neurological: • Consultant, fellowship/grant support • St. Jude Medical: • Grant support, consultant • Boston Scientific • Grant Support

  3. Overview • Patient selection • General Considerations for pump placement • Infection Prevention • Surgical Technique • Prevention of follow-up complications

  4. Patient Selection • First step in minimizing complications • Chronic non-malignant pain: • Appropriate candidate • Adequate trial • Appropriate follow-up care • CSF leak • Assess for occult hydrocephalus (children, adults with spasticity s/p TBI)

  5. Complication avoidance: Infection • History: • Frequent wound infections • Cellulitis • Diabetes • Other immunosuppression • Examine for: • Pressure ulcers • Non-healing wounds • Preoperative skin swab for MRSA/MSSA: • pre-operative decontamination routine • Bactroban ointment • Oral antibiotics (controversial) • Appropriate perioperative antibiotics (Vancomycin vs. cephalosporin) • Revisions following infection: • Make sure all hardware has been removed

  6. Pump Location • Patient comfort • Ease of access • Minimize impingement on ribs or iliac crest • Stability • Morbidly obese patients: prone to pump flipping • Consider Infraclavicular placement or scapular placement • Mark position with patient standing

  7. Complication avoidance: Thin patients • Consider subfascial implantation

  8. Catheter-Related Complications Follett KA, Burchiel K, Deer T, et al. Prevention of Intrathecal Drug Delivery Catheter-Related Complications. Neuromodulation2003; 6(1): 32-41

  9. Low Complication Technique for Catheter Implant

  10. Minimizing Complications • Paramedian oblique entry (compared to midline entry) • May minimize catheter dislodgement • Reduces wear on catheter • Anchoring may reduce catheter dislodgements • V-wing anchor at fascial entry point • Catheter connector/primary anchor • Catheter slack at specific locations may reduce kinks • Loop catheter under pump • Slack in catheter by connector • Anchoring pump may reduce catheter kinks and dislodgements • Suture loops or mesh pouch • Product designs intended to reduce catheter kinks and holes • Thick wall proximal catheter • Strain-relief sleeve on catheter tubing

  11. Prep patient • Mark pocket site • Position patient • lateral position • lumbar region slightly flexed • Adjust table and drapes to view fluoroscopy • Administer anesthesia Image courtesy of Dr. Joseph Dunn and Dr. Peter Kosek, Pain Consultants of Oregon, Eugene, OR.

  12. Place needle Spinous Processes Needle Pedicles

  13. Place needle (continued) ~ 30° Paramedian Oblique

  14. Place needle (continued)

  15. Thread catheter through needleAvoid pulling catheter back while threading Catheter Introducer Needle

  16. Attach the Sutureless Pump Connector to the Pump Image inside the Connection Enlargement of the Connection Catheter Port Connector Seal Sutureless Pump Connector Catheter Lumen Sutureless Connector (‘SC’) Intrathecal Catheters (Models 8709SC, 8731SC, 8596SC, 8578): Recommendations for Implant Techniques. June 2008: 1-4.

  17. Correct Sutureless Catheter Connection • Verify CSF backflow through the catheter. • Ensure alignment of Sutureless Connector to the pump. • Firmly squeeze precisely on the oval marks of the pump connector and press connector onto the catheter port until the connector fully covers the catheter port. The connector snaps into place. • Tug and rotate to check the connection. Sutureless Connector (‘SC’) Intrathecal Catheters (Models 8709SC, 8731SC, 8596SC, 8578): Recommendations for Implant Techniques. June 2008: 1-4.

  18. Pump anchoring • Pouch vs. Suture loops • Surgeon preference • Pouch can be problematic at time of replacement/removal

  19. Place and suture pump into the pocket, coiling excess catheter behind pump Image Courtesy of Dr. Alessandro Dario, Centro di Neuromodulazione, Divisone di Neurochirurgia, Ospedale Macchi, Varese, Italy.

  20. Overview for low complication implant technique Adapted from Follett KA, Burchiel K, Deer T, et al. Prevention of Intrathecal Drug Delivery Catheter-Related Complications. Neuromodulation2003; 6(1): 32-41.

  21. Improved Catheter Design

  22. Granuloma prevention • Granulomas have now been reported with most medications (including baclofen) and concentrations • Prevailing wisdom suggests that the incidence is higher with higher doses/concentrations

  23. Best practices • To date, a collection of consensus panel recommendations • No evidence at any level to suggest any of these recommendations • Many of them “common sense” recommendations • Patient selection and continued follow-up care by trained practitioners remains a key…

  24. Thank you

More Related