Robin Jonas1,2, Barbara Namer3, Lenka Stockinger4, Kim Chisholm5, Mark Schnakenberg1, Gunther Landmann4, Mateusz Kucharczyk5, Christoph Konrad6, Roland Schmidt7, Richard Carr1, Stephen McMahon5, Martin Schmelz1, Roman Rukwied1. 1. Department of Experimental Pain Research, Medical Faculty Mannheim, University of Heidelberg, Mannheim, Germany. 2. Department of Anesthesiology, Stanford University, Stanford, CA. 3. Department of Physiology I, Friedrich-Alexander-University Erlangen-Nuremberg, Nuremberg, Germany. 4. Centre for Pain Medicine, Swiss Paraplegic Centre, Nottwil, Switzerland. 5. London Pain Consortium, Neurorestoration Group, King's College London, London, United Kingdom. 6. Department of Anaesthesiology, Kantonsspital Lucerne, Lucerne, Switzerland. 7. Department Clinical Neurophysiology, Uppsala University, Uppsala, Sweden.
Abstract
OBJECTIVE: Develop and validate a low-intensity sinusoidal electrical stimulation paradigm to preferentially activate C-fibers in human skin. METHODS: Sinusoidal transcutaneous stimulation (4Hz) was assessed psychophysically in healthy volunteers (n = 14) and neuropathic pain patients (n = 9). Pursuing laser Doppler imaging and single nociceptor recordings in vivo in humans (microneurography) and pigs confirmed the activation of "silent" C-nociceptors. Synchronized C-fiber compound action potentials were evoked in isolated human nerve fascicles in vitro. Live cell imaging of L4 dorsal root ganglia in anesthetized mice verified the recruitment of small-diameter neurons during transcutaneous 4-Hz stimulation of the hindpaw (0.4mA). RESULTS: Transcutaneous sinusoidal current (0.05-0.4mA, 4Hz) activated "polymodal" C-fibers (50% at ∼0.03mA) and "silent" nociceptors (50% at ∼0.04mA), intensities substantially lower than that required with transcutaneous 1-ms rectangular pulses ("polymodal" ∼3mA, "silent" ∼50mA). The stimulation induced delayed burning (nonpulsating) pain and a pronounced axon-reflex erythema, both indicative of C-nociceptor activation. Pain ratings to repetitive stimulation (1 minute, 4Hz) adapted in healthy volunteers by Numeric Rating Scale (NRS) -3 and nonpainful skin sites of neuropathic pain patients by NRS -0.5, whereas pain even increased in painful neuropathic skin by approximately NRS +2. INTERPRETATION: Sinusoidal electrical stimulation at 4Hz enables preferential activation of C-nociceptors in pig and human skin that accommodates during ongoing (1-minute) stimulation. Absence of such accommodation in neuropathic pain patients suggest axonal hyperexcitability that could be predictive of alterations in peripheral nociceptor encoding and offer a potential therapeutic entry point for topical analgesic treatment. Ann Neurol 2018;83:945-957.
OBJECTIVE: Develop and validate a low-intensity sinusoidal electrical stimulation paradigm to preferentially activate C-fibers in human skin. METHODS: Sinusoidal transcutaneous stimulation (4Hz) was assessed psychophysically in healthy volunteers (n = 14) and neuropathic painpatients (n = 9). Pursuing laser Doppler imaging and single nociceptor recordings in vivo in humans (microneurography) and pigs confirmed the activation of "silent" C-nociceptors. Synchronized C-fiber compound action potentials were evoked in isolated human nerve fascicles in vitro. Live cell imaging of L4 dorsal root ganglia in anesthetized mice verified the recruitment of small-diameter neurons during transcutaneous 4-Hz stimulation of the hindpaw (0.4mA). RESULTS: Transcutaneous sinusoidal current (0.05-0.4mA, 4Hz) activated "polymodal" C-fibers (50% at ∼0.03mA) and "silent" nociceptors (50% at ∼0.04mA), intensities substantially lower than that required with transcutaneous 1-ms rectangular pulses ("polymodal" ∼3mA, "silent" ∼50mA). The stimulation induced delayed burning (nonpulsating) pain and a pronounced axon-reflex erythema, both indicative of C-nociceptor activation. Pain ratings to repetitive stimulation (1 minute, 4Hz) adapted in healthy volunteers by Numeric Rating Scale (NRS) -3 and nonpainful skin sites of neuropathic painpatients by NRS -0.5, whereas pain even increased in painful neuropathic skin by approximately NRS +2. INTERPRETATION: Sinusoidal electrical stimulation at 4Hz enables preferential activation of C-nociceptors in pig and human skin that accommodates during ongoing (1-minute) stimulation. Absence of such accommodation in neuropathic painpatients suggest axonal hyperexcitability that could be predictive of alterations in peripheral nociceptor encoding and offer a potential therapeutic entry point for topical analgesic treatment. Ann Neurol 2018;83:945-957.
Authors: Roman Rukwied; Mark Schnakenberg; Hans Jürgen Solinkski; Martin Schmelz; Elke Weisshaar Journal: Acta Derm Venereol Date: 2020-10-28 Impact factor: 3.875
Authors: S A Holmes; N Barakat; M Bhasin; N I Lopez; A Lebel; D Zurakowski; B Thomas; S Bhasin; K E Silva; R Borra; R Burstein; L E Simons; D Borsook Journal: Neurobiol Pain Date: 2019-12-04