Human forearm position sense after fatigue of elbow flexor muscles
Human forearm position sense after fatigue of elbow flexor muscles
After a period of eccentric exercise of elbow flexor muscles of one arm in young, adult human subjects, muscles became fatigued and damaged. Damage indicators were a fall in force, change in resting elbow angle and delayed onset of soreness. After the exercise, subjects were asked to match the forearm angle of one arm, whose position was set by the experimenter, with their other arm. Subjects matched the position of the unsupported reference arm, when this was unexercised, with a significantly more flexed position in their exercised indicator arm. Errors were in the opposite direction when the reference arm was exercised. The size of the errors correlated with the drop in force. Less consistent errors were observed when the reference arm was supported. A similar pattern of errors was seen after concentric exercise, which does not produce muscle damage. The data suggested that subjects were using as a position cue the perceived effort required to maintain a given forearm angle against the force of gravity. The fall in force from fatigue after exercise meant more effort was required to maintain a given position. That led to matching errors between the exercised and unexercised arms. It was concluded that while a role for muscle spindles in kinaesthesia cannot be excluded, detailed information about static limb position can be derived from the effort required to support the limb against the force of gravity.
705-715
Walsh, L.D.
efc630f1-f7da-4d00-b200-6aedd1ca9972
Hesse, C.W.
53fee7f7-a12e-4783-a426-0d59afbf475d
Morgan, D.L.
8d91f0b1-dac1-4d81-be0b-a1d7c779e7b3
Proske, U.
97a47c71-a078-4993-8726-0f09aa7035f5
2004
Walsh, L.D.
efc630f1-f7da-4d00-b200-6aedd1ca9972
Hesse, C.W.
53fee7f7-a12e-4783-a426-0d59afbf475d
Morgan, D.L.
8d91f0b1-dac1-4d81-be0b-a1d7c779e7b3
Proske, U.
97a47c71-a078-4993-8726-0f09aa7035f5
Walsh, L.D., Hesse, C.W., Morgan, D.L. and Proske, U.
(2004)
Human forearm position sense after fatigue of elbow flexor muscles.
Journal of Physiology, 558 (2), .
(doi:10.1113/jphysiol.2004.062703).
Abstract
After a period of eccentric exercise of elbow flexor muscles of one arm in young, adult human subjects, muscles became fatigued and damaged. Damage indicators were a fall in force, change in resting elbow angle and delayed onset of soreness. After the exercise, subjects were asked to match the forearm angle of one arm, whose position was set by the experimenter, with their other arm. Subjects matched the position of the unsupported reference arm, when this was unexercised, with a significantly more flexed position in their exercised indicator arm. Errors were in the opposite direction when the reference arm was exercised. The size of the errors correlated with the drop in force. Less consistent errors were observed when the reference arm was supported. A similar pattern of errors was seen after concentric exercise, which does not produce muscle damage. The data suggested that subjects were using as a position cue the perceived effort required to maintain a given forearm angle against the force of gravity. The fall in force from fatigue after exercise meant more effort was required to maintain a given position. That led to matching errors between the exercised and unexercised arms. It was concluded that while a role for muscle spindles in kinaesthesia cannot be excluded, detailed information about static limb position can be derived from the effort required to support the limb against the force of gravity.
This record has no associated files available for download.
More information
Published date: 2004
Organisations:
Signal Processing & Control Group
Identifiers
Local EPrints ID: 27987
URI: http://eprints.soton.ac.uk/id/eprint/27987
ISSN: 0022-3751
PURE UUID: bb0336dc-d637-4f1a-adef-87c04fab74a2
Catalogue record
Date deposited: 28 Apr 2006
Last modified: 15 Mar 2024 07:22
Export record
Altmetrics
Contributors
Author:
L.D. Walsh
Author:
C.W. Hesse
Author:
D.L. Morgan
Author:
U. Proske
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics