Modulation of laser-evoked potentials and pain perception by transcutaneous electrical nerve stimulation (TENS): A placebo-controlled study in healthy volunteers

•High-frequency TENS causes inhibition of LEPs and evoked pain perception.•This modulation reflects an objective inhibitory effect of TENS on pain pathways.•This modulation predominates within the segmental area of TENS application. To investigate the effects of transcutaneous electrical nerve stimu...

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Published inClinical neurophysiology Vol. 124; no. 9; pp. 1861 - 1867
Main Authors Vassal, François, Créac’h, C., Convers, Ph, Laurent, B., Garcia-Larrea, L., Peyron, R.
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier Ireland Ltd 01.09.2013
Subjects
Adult
Analysis of Variance
Evoked Potentials - physiology
Female
Humans
Laser Therapy - methods
Laser-evoked potentials
Male
Neurology
Neuromodulation
Nociception - physiology
Pain
Pain Management - methods
Pain Measurement
Reference Values
Transcutaneous Electric Nerve Stimulation
Transcutaneous electrical nerve stimulation
Young Adult
Transcutaneous electrical nerve stimulation
Pain
Neuromodulation
Laser-evoked potentials
Online AccessGet full text
ISSN1388-2457
1872-8952
1872-8952
DOI10.1016/j.clinph.2013.04.001

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Abstract •High-frequency TENS causes inhibition of LEPs and evoked pain perception.•This modulation reflects an objective inhibitory effect of TENS on pain pathways.•This modulation predominates within the segmental area of TENS application. To investigate the effects of transcutaneous electrical nerve stimulation (TENS) on brain nociceptive responses (laser-evoked potentials, LEPs) and pain perception. Twenty healthy subjects were included. Nociceptive CO2-laser pulses were sequentially delivered to the dorsum of both feet. The amplitude of LEPs and nociceptive thresholds were collected in three consecutive conditions: T1: “sham” TENS (2Hz/low-intensity) positioned heterotopically, over the left thigh; T2: “active” TENS (120Hz/low-intensity) applied homotopically, over the left common peroneal nerve; and T3: “sham” TENS (replication of condition T1). Compared with “sham” TENS, “active” TENS significantly decreased the LEPs amplitude. This effect was observed exclusively when “active” TENS was applied ipsilaterally to the painful stimulus. Nociceptive thresholds increased with sessions in both limbs, but the increase observed during the “active” condition of TENS (T2) exceeded significantly that observed during the condition T3 only on the foot ipsilateral to TENS. Compared with a credible placebo TENS, high-frequency TENS induced a significant attenuation of both the acute pain and LEPs induced by noxious stimuli applied on the same dermatome. This modulation of subjective and objective concomitants of pain processing reflects a real neurophysiological TENS-related effect on nociceptive transmission.
AbstractList To investigate the effects of transcutaneous electrical nerve stimulation (TENS) on brain nociceptive responses (laser-evoked potentials, LEPs) and pain perception.OBJECTIVETo investigate the effects of transcutaneous electrical nerve stimulation (TENS) on brain nociceptive responses (laser-evoked potentials, LEPs) and pain perception.Twenty healthy subjects were included. Nociceptive CO(2)-laser pulses were sequentially delivered to the dorsum of both feet. The amplitude of LEPs and nociceptive thresholds were collected in three consecutive conditions: T1: "sham" TENS (2 Hz/low-intensity) positioned heterotopically, over the left thigh; T2: "active" TENS (120 Hz/low-intensity) applied homotopically, over the left common peroneal nerve; and T3: "sham" TENS (replication of condition T1).METHODSTwenty healthy subjects were included. Nociceptive CO(2)-laser pulses were sequentially delivered to the dorsum of both feet. The amplitude of LEPs and nociceptive thresholds were collected in three consecutive conditions: T1: "sham" TENS (2 Hz/low-intensity) positioned heterotopically, over the left thigh; T2: "active" TENS (120 Hz/low-intensity) applied homotopically, over the left common peroneal nerve; and T3: "sham" TENS (replication of condition T1).Compared with "sham" TENS, "active" TENS significantly decreased the LEPs amplitude. This effect was observed exclusively when "active" TENS was applied ipsilaterally to the painful stimulus. Nociceptive thresholds increased with sessions in both limbs, but the increase observed during the "active" condition of TENS (T2) exceeded significantly that observed during the condition T3 only on the foot ipsilateral to TENS.RESULTSCompared with "sham" TENS, "active" TENS significantly decreased the LEPs amplitude. This effect was observed exclusively when "active" TENS was applied ipsilaterally to the painful stimulus. Nociceptive thresholds increased with sessions in both limbs, but the increase observed during the "active" condition of TENS (T2) exceeded significantly that observed during the condition T3 only on the foot ipsilateral to TENS.Compared with a credible placebo TENS, high-frequency TENS induced a significant attenuation of both the acute pain and LEPs induced by noxious stimuli applied on the same dermatome.CONCLUSIONSCompared with a credible placebo TENS, high-frequency TENS induced a significant attenuation of both the acute pain and LEPs induced by noxious stimuli applied on the same dermatome.This modulation of subjective and objective concomitants of pain processing reflects a real neurophysiological TENS-related effect on nociceptive transmission.SIGNIFICANCEThis modulation of subjective and objective concomitants of pain processing reflects a real neurophysiological TENS-related effect on nociceptive transmission.
Highlights • High-frequency TENS causes inhibition of LEPs and evoked pain perception. • This modulation reflects an objective inhibitory effect of TENS on pain pathways. • This modulation predominates within the segmental area of TENS application.
•High-frequency TENS causes inhibition of LEPs and evoked pain perception.•This modulation reflects an objective inhibitory effect of TENS on pain pathways.•This modulation predominates within the segmental area of TENS application. To investigate the effects of transcutaneous electrical nerve stimulation (TENS) on brain nociceptive responses (laser-evoked potentials, LEPs) and pain perception. Twenty healthy subjects were included. Nociceptive CO2-laser pulses were sequentially delivered to the dorsum of both feet. The amplitude of LEPs and nociceptive thresholds were collected in three consecutive conditions: T1: “sham” TENS (2Hz/low-intensity) positioned heterotopically, over the left thigh; T2: “active” TENS (120Hz/low-intensity) applied homotopically, over the left common peroneal nerve; and T3: “sham” TENS (replication of condition T1). Compared with “sham” TENS, “active” TENS significantly decreased the LEPs amplitude. This effect was observed exclusively when “active” TENS was applied ipsilaterally to the painful stimulus. Nociceptive thresholds increased with sessions in both limbs, but the increase observed during the “active” condition of TENS (T2) exceeded significantly that observed during the condition T3 only on the foot ipsilateral to TENS. Compared with a credible placebo TENS, high-frequency TENS induced a significant attenuation of both the acute pain and LEPs induced by noxious stimuli applied on the same dermatome. This modulation of subjective and objective concomitants of pain processing reflects a real neurophysiological TENS-related effect on nociceptive transmission.
To investigate the effects of transcutaneous electrical nerve stimulation (TENS) on brain nociceptive responses (laser-evoked potentials, LEPs) and pain perception. Twenty healthy subjects were included. Nociceptive CO(2)-laser pulses were sequentially delivered to the dorsum of both feet. The amplitude of LEPs and nociceptive thresholds were collected in three consecutive conditions: T1: "sham" TENS (2 Hz/low-intensity) positioned heterotopically, over the left thigh; T2: "active" TENS (120 Hz/low-intensity) applied homotopically, over the left common peroneal nerve; and T3: "sham" TENS (replication of condition T1). Compared with "sham" TENS, "active" TENS significantly decreased the LEPs amplitude. This effect was observed exclusively when "active" TENS was applied ipsilaterally to the painful stimulus. Nociceptive thresholds increased with sessions in both limbs, but the increase observed during the "active" condition of TENS (T2) exceeded significantly that observed during the condition T3 only on the foot ipsilateral to TENS. Compared with a credible placebo TENS, high-frequency TENS induced a significant attenuation of both the acute pain and LEPs induced by noxious stimuli applied on the same dermatome. This modulation of subjective and objective concomitants of pain processing reflects a real neurophysiological TENS-related effect on nociceptive transmission.
Author Garcia-Larrea, L.
Peyron, R.
Convers, Ph
Vassal, François
Créac’h, C.
Laurent, B.
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Keywords Transcutaneous electrical nerve stimulation
Pain
Neuromodulation
Laser-evoked potentials
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Snippet •High-frequency TENS causes inhibition of LEPs and evoked pain perception.•This modulation reflects an objective inhibitory effect of TENS on pain...
Highlights • High-frequency TENS causes inhibition of LEPs and evoked pain perception. • This modulation reflects an objective inhibitory effect of TENS on...
To investigate the effects of transcutaneous electrical nerve stimulation (TENS) on brain nociceptive responses (laser-evoked potentials, LEPs) and pain...
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SubjectTerms Adult
Analysis of Variance
Evoked Potentials - physiology
Female
Humans
Laser Therapy - methods
Laser-evoked potentials
Male
Neurology
Neuromodulation
Nociception - physiology
Pain
Pain Management - methods
Pain Measurement
Reference Values
Transcutaneous Electric Nerve Stimulation
Transcutaneous electrical nerve stimulation
Young Adult
Title Modulation of laser-evoked potentials and pain perception by transcutaneous electrical nerve stimulation (TENS): A placebo-controlled study in healthy volunteers
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https://www.clinicalkey.es/playcontent/1-s2.0-S1388245713002551
https://dx.doi.org/10.1016/j.clinph.2013.04.001
https://www.ncbi.nlm.nih.gov/pubmed/23639375
https://www.proquest.com/docview/1418147449
Volume 124
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