J Holsheimer1. 1. Department of Electrical Engineering, University of Twente, Enschede, The Netherlands.
Abstract
OBJECTIVE: A major drawback of currently available spinal cord stimulation (SCS) systems for the management of chronic intractable pain, especially of widespread pain patterns as in reflex sympathetic dystrophy, is the generally limited paresthesia coverage. The aim of this study is to analyze the origin of this problem and to provide solutions. METHODS: Results from theoretical studies, in which a computer model was used to mimic the effects of SCS on spinal nerve fibers, were used to analyze which factors may limit paresthesia coverage. Model predictions were verified by empirical data from clinical literature. RESULTS: When using common SCS electrodes, both perception threshold and motor/discomfort threshold are generally related to dorsal root stimulation. Because these thresholds have a small ratio (approximately 1:1.4), stimulation of dorsal column fibers and paresthesia coverage is limited by this small range of stimulation. When the distance between the epidural electrode and spinal cord is large (midthoracically), the threshold for dorsal column stimulation exceeds discomfort threshold, resulting only in segmental paresthesia. The range of dorsal column stimulation and paresthesia coverage can be improved when using either an optimally dimensioned rostrocaudal bi-/tripole or a transverse tripole ("guarded cathode"). When applying the latter in combination with a dual channel pulse generator providing simultaneous pulses, paresthesias can simply be changed to optimally cover the painful area. CONCLUSION: Paresthesia coverage and pain management by SCS can be improved when using electrodes as proposed.
OBJECTIVE: A major drawback of currently available spinal cord stimulation (SCS) systems for the management of chronic intractable pain, especially of widespread pain patterns as in reflex sympathetic dystrophy, is the generally limited paresthesia coverage. The aim of this study is to analyze the origin of this problem and to provide solutions. METHODS: Results from theoretical studies, in which a computer model was used to mimic the effects of SCS on spinal nerve fibers, were used to analyze which factors may limit paresthesia coverage. Model predictions were verified by empirical data from clinical literature. RESULTS: When using common SCS electrodes, both perception threshold and motor/discomfort threshold are generally related to dorsal root stimulation. Because these thresholds have a small ratio (approximately 1:1.4), stimulation of dorsal column fibers and paresthesia coverage is limited by this small range of stimulation. When the distance between the epidural electrode and spinal cord is large (midthoracically), the threshold for dorsal column stimulation exceeds discomfort threshold, resulting only in segmental paresthesia. The range of dorsal column stimulation and paresthesia coverage can be improved when using either an optimally dimensioned rostrocaudal bi-/tripole or a transverse tripole ("guarded cathode"). When applying the latter in combination with a dual channel pulse generator providing simultaneous pulses, paresthesias can simply be changed to optimally cover the painful area. CONCLUSION: Paresthesia coverage and pain management by SCS can be improved when using electrodes as proposed.
Authors: Marc Russo; Charles Brooker; Michael J Cousins; Nathan Taylor; Tillman Boesel; Richard Sullivan; Lewis Holford; Erin Hanson; Gerrit Eduard Gmel; Nastaran Hesam Shariati; Lawrence Poree; John Parker Journal: Neurosurgery Date: 2020-09-15 Impact factor: 4.654
Authors: Nathaniel Katz; Robert H Dworkin; Richard North; Simon Thomson; Sam Eldabe; Salim M Hayek; Brian H Kopell; John Markman; Ali Rezai; Rod S Taylor; Dennis C Turk; Eric Buchser; Howard Fields; Gregory Fiore; McKenzie Ferguson; Jennifer Gewandter; Chris Hilker; Roshini Jain; Angela Leitner; John Loeser; Ewan McNicol; Turo Nurmikko; Jane Shipley; Rahul Singh; Andrea Trescot; Robert van Dongen; Lalit Venkatesan Journal: Pain Date: 2021-07-01 Impact factor: 6.961