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Arthritis Research & Therapy

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Open Access 01-12-2015 | Research article

The effects of experimental knee pain on lower limb corticospinal and motor cortex excitability

Authors: David Andrew Rice, Thomas Graven-Nielsen, Gwyn Nancy Lewis, Peter John McNair, Nicola Dalbeth

Published in: Arthritis Research & Therapy | Issue 1/2015

Abstract

Introduction

Notable weakness of the quadriceps muscles is typically observed as a consequence of knee joint arthritis, knee surgery and knee injury. This is partly due to ongoing neural inhibition that prevents the central nervous system from fully activating the quadriceps, a process known as arthrogenic muscle inhibition (AMI). To investigate the mechanisms underlying AMI, this study explored the effects of experimental knee pain on lower limb corticospinal and motor cortex excitability.

Methods

Twenty-four healthy volunteers participated in this study. In experiment 1, experimental knee pain was induced by the injection of hypertonic saline into the infrapatellar fat pad (n = 18). In experiment 2, isotonic saline was injected into the fat pad as a non-painful control (n = 8). Pain intensity was measured on a 10-cm electronic visual analogue scale. Transcranial magnetic stimulation and electromyography were used to measure lower limb motor-evoked potential amplitude and short-interval intracortical inhibition before and after the injection.

Results

The peak VAS score following hypertonic saline (5.0 ± 0.5 cm) was higher than after isotonic saline (p <0.001). Compared with baseline, there was a significant increase in vastus lateralis (p = 0.02) and vastus medialis motor-evoked potential amplitude (p = 0.02) during experimental knee pain that was not apparent during the control condition. Biceps femoris and tibialis anterior motor-evoked potential amplitude did not change following injection (all p >0.05). There was no change in short-interval intracortical inhibition measured from vastus lateralis following injection (both p >0.05).

Conclusions

Quadriceps corticospinal excitability increases during experimental knee pain, providing no evidence for a supraspinal contribution to quadriceps AMI.

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Title: The effects of experimental knee pain on lower limb corticospinal and motor cortex excitability
Authors: David Andrew Rice
Thomas Graven-Nielsen
Gwyn Nancy Lewis
Peter John McNair
Nicola Dalbeth
Publication date: 01-12-2015
Publisher: BioMed Central
Published in: Arthritis Research & Therapy / Issue 1/2015
Electronic ISSN: 1478-6362
DOI: https://doi.org/10.1186/s13075-015-0724-0

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