Membrane properties in small cutaneous nerve fibers in humans

Kristian Hennings; Ken Steffen Frahm; Laura Petrini; Ole Kæseler Andersen; Lars Arendt-Nielsen; Carsten Dahl Mørch

doi:10.1002/mus.25234

Membrane properties in small cutaneous nerve fibers in humans

Kristian Hennings, Ken Steffen Frahm, Laura Petrini, Ole Kæseler Andersen, Lars Arendt-Nielsen, Carsten Dahl Mørch

Research output: Contribution to journal › Journal article › Research › peer-review

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Abstract

INTRODUCTION: Assessment of membrane properties is important for understanding the mechanisms of painful peripheral neuropathy, developing new diagnostic techniques, and for screening/profiling of analgesics that target ion channels.

METHODS: Small cutaneous nerves were activated electrically by small diameter (0.2mm) cathodes, and large nerves were activated by ordinary patch electrodes. This new perception threshold tracking (PTT) method combines perception threshold assessment and stimulation paradigms from conventional threshold tracking.

RESULTS: The strength-duration time-constant of large fibers (580µs±160µs) was lower than the time constant of small fibers (1060µs±690µs; P<0.01, paired t-test). Threshold electrotonus showed similar threshold reductions to sub-threshold pre-pulses, except for 80ms hyperpolarizing pre-pulses, to which small fibers showed less threshold reduction than large fibers (rmANOVA, Bonferroni, P=0.006).

CONCLUSION: This study is a reliable method to investigate the membrane properties of small cutaneous nerve fibers in humans and may be used in clinical settings as a diagnostic or profiling tool. This article is protected by copyright. All rights reserved.

Original language	English
Journal	Muscle & Nerve
Volume	55
Issue number	2
Pages (from-to)	195-201
ISSN	0148-639X
DOIs	https://doi.org/10.1002/mus.25234
Publication status	Published - 2017

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title = "Membrane properties in small cutaneous nerve fibers in humans",

abstract = "INTRODUCTION: Assessment of membrane properties is important for understanding the mechanisms of painful peripheral neuropathy, developing new diagnostic techniques, and for screening/profiling of analgesics that target ion channels.METHODS: Small cutaneous nerves were activated electrically by small diameter (0.2mm) cathodes, and large nerves were activated by ordinary patch electrodes. This new perception threshold tracking (PTT) method combines perception threshold assessment and stimulation paradigms from conventional threshold tracking.RESULTS: The strength-duration time-constant of large fibers (580µs±160µs) was lower than the time constant of small fibers (1060µs±690µs; P<0.01, paired t-test). Threshold electrotonus showed similar threshold reductions to sub-threshold pre-pulses, except for 80ms hyperpolarizing pre-pulses, to which small fibers showed less threshold reduction than large fibers (rmANOVA, Bonferroni, P=0.006).CONCLUSION: This study is a reliable method to investigate the membrane properties of small cutaneous nerve fibers in humans and may be used in clinical settings as a diagnostic or profiling tool. This article is protected by copyright. All rights reserved.",

author = "Kristian Hennings and Frahm, {Ken Steffen} and Laura Petrini and Andersen, {Ole K{\ae}seler} and Lars Arendt-Nielsen and M{\o}rch, {Carsten Dahl}",

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year = "2017",

doi = "10.1002/mus.25234",

language = "English",

volume = "55",

pages = "195--201",

journal = "Muscle & Nerve",

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T1 - Membrane properties in small cutaneous nerve fibers in humans

AU - Hennings, Kristian

AU - Frahm, Ken Steffen

AU - Petrini, Laura

AU - Andersen, Ole Kæseler

AU - Arendt-Nielsen, Lars

AU - Mørch, Carsten Dahl

PY - 2017

Y1 - 2017

N2 - INTRODUCTION: Assessment of membrane properties is important for understanding the mechanisms of painful peripheral neuropathy, developing new diagnostic techniques, and for screening/profiling of analgesics that target ion channels.METHODS: Small cutaneous nerves were activated electrically by small diameter (0.2mm) cathodes, and large nerves were activated by ordinary patch electrodes. This new perception threshold tracking (PTT) method combines perception threshold assessment and stimulation paradigms from conventional threshold tracking.RESULTS: The strength-duration time-constant of large fibers (580µs±160µs) was lower than the time constant of small fibers (1060µs±690µs; P<0.01, paired t-test). Threshold electrotonus showed similar threshold reductions to sub-threshold pre-pulses, except for 80ms hyperpolarizing pre-pulses, to which small fibers showed less threshold reduction than large fibers (rmANOVA, Bonferroni, P=0.006).CONCLUSION: This study is a reliable method to investigate the membrane properties of small cutaneous nerve fibers in humans and may be used in clinical settings as a diagnostic or profiling tool. This article is protected by copyright. All rights reserved.

AB - INTRODUCTION: Assessment of membrane properties is important for understanding the mechanisms of painful peripheral neuropathy, developing new diagnostic techniques, and for screening/profiling of analgesics that target ion channels.METHODS: Small cutaneous nerves were activated electrically by small diameter (0.2mm) cathodes, and large nerves were activated by ordinary patch electrodes. This new perception threshold tracking (PTT) method combines perception threshold assessment and stimulation paradigms from conventional threshold tracking.RESULTS: The strength-duration time-constant of large fibers (580µs±160µs) was lower than the time constant of small fibers (1060µs±690µs; P<0.01, paired t-test). Threshold electrotonus showed similar threshold reductions to sub-threshold pre-pulses, except for 80ms hyperpolarizing pre-pulses, to which small fibers showed less threshold reduction than large fibers (rmANOVA, Bonferroni, P=0.006).CONCLUSION: This study is a reliable method to investigate the membrane properties of small cutaneous nerve fibers in humans and may be used in clinical settings as a diagnostic or profiling tool. This article is protected by copyright. All rights reserved.

U2 - 10.1002/mus.25234

DO - 10.1002/mus.25234

M3 - Journal article

C2 - 27366884

SN - 0148-639X

VL - 55

SP - 195

EP - 201

JO - Muscle & Nerve

JF - Muscle & Nerve

IS - 2

ER -

Membrane properties in small cutaneous nerve fibers in humans

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