Low‐energy differential target multiplexed <scp>SCS</scp> derivative reduces pain and improves quality of life through 12 months in patients with chronic back and/or leg pain-Reference-Cited by-同舟云学术

Low‐energy differential target multiplexed SCS derivative reduces pain and improves quality of life through 12 months in patients with chronic back and/or leg pain

Published:2024-09-11 Issue: Volume: Page:
ISSN:1530-7085
Container-title:Pain Practice
language:en
Short-container-title:Pain Practice

Author:

Peacock Jeffery¹,Provenzano David²^ORCID,Fishman Michael³^ORCID,Amirdelfan Kasra⁴,Bromberg Todd⁵,Schmidt Todd⁶,White Thomas⁷,Grewal Prabhdeep⁸,Justiz Rafael⁹,Calodney Aaron¹⁰,El‐Naggar Amr¹¹,Shah Binit¹²,Esposito Michael¹³,Gatzinsky Kliment¹⁴,Kallewaard Jan Willem¹⁵¹⁶^ORCID,Poree Lawrence¹⁷,Cleland Andrew¹⁸,Rice Calysta¹⁸,Theis Erin¹⁸,Noel Kate¹⁸,LaRue Maddie¹⁸^ORCID

Affiliation:

1. Pain Management Novant Health Winston‐Salem North Carolina USA

2. Pain and Interventional Care Pain Diagnostics and Interventional Care Sewickley Pennsylvania USA

3. Pain Management Center for Interventional Pain & Spine Lancaster Pennsylvania USA

4. Anesthesiology IPM Medical Group Walnut Creek California USA

5. Neurology Delaware Valley Pain and Spine Institute Trevose Pennsylvania USA

6. Interventional Pain Management Goodman Campbell Brain and Spine Carmel Indiana USA

7. Pain Management Spritz Center for Pain Shenandoah Texas USA

8. Pain Medicine TSAOG Orthopaedics & Spine San Antonio Texas USA

9. Pain Management Oklahoma Pain Physicians Oklahoma City Oklahoma USA

10. Pain Management Precision Spine Care Tyler Texas USA

11. Pain Management DREZ One Somerset Kentucky USA

12. Pain Management Carolinas Pain Center Charlotte North Carolina USA

13. Pain Medicine Florida Pain Institute Palm Bay Florida USA

14. Neurosurgery Sahlgrenska University Hospital Gothenburg Sweden

15. Anesthesiology and Pain Management Rijnstate Hospital Arnhem The Netherlands

16. Amsterdam University Medical Center Amsterdam The Netherlands

17. University of California san Francisco Pain Management Center San Francisco California USA

18. Medtronic Minneapolis Minnesota USA

Abstract

AbstractIntroductionEnergy‐reducing spinal cord stimulation (SCS) approaches have the potential to impact patient experience with rechargeable and non‐rechargeable SCS devices through reducing device recharge time or enhancing device longevity. This prospective, multi‐center study evaluated the safety, effectiveness, and actual energy usage of differential target multiplexed (DTM) endurance therapy, a reduced energy DTM SCS derivative.MethodsSubjects who reported an overall pain visual analog score (VAS) of ≥6/10 cm and an Oswestry Disability Index score of 21–80 out of 100 at baseline with moderate to severe chronic, intractable back and/or leg pain were eligible. Evaluation visits occurred at 1, 3, 6, and 12 months post‐device activation. The primary objective was to characterize change in overall pain intensity, as measured by VAS, from baseline to 3‐month visit.ResultsFifty‐seven subjects enrolled at 12 US sites from November 2020 through June 2021, 35 were implanted with a rechargeable SCS device, and 27 completed the 12‐month visit. Subjects experienced a 50.4% mean reduction in overall pain from baseline at the 3‐month follow‐up that was sustained through 12 months. Additional outcomes including changes in overall, back, and leg pain intensity, quality of life, disability, therapy satisfaction, safety, and current battery usage are shown through 12‐month follow‐up.ConclusionThe use of DTM endurance SCS therapy in this study resulted in reductions in pain relief through 12 months, demonstrating that energy‐reducing stimulation patterns can provide clinical benefit. Clinically effective, reduced energy SCS derivatives have the potential to impact patient experience through either reduced recharge requirements or increased device longevity.

Funder

Medtronic

Publisher

Wiley

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1111/papr.13407

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