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Acute vascular response of hand to force and vibration

Acute vascular response of hand to force and vibration
Acute vascular response of hand to force and vibration
This study aimed to investigate the acute effect of grip and feed exertions on the vascular system at the fingers during exposure to hand-arm vibration (HAV), and to identify which active hand force situation would have the most effect on finger vascular function. A total of 12 individuals attended the test, and each of them were subjected to eight sets of force-and-vibration situations: four with combinations of forces and vibration, and four control ones with only hand forces applied. The vibration stimulus was applied on the right hand at 2.75 m/s2 with a frequency of 125 Hz for three minutes, during which the application of grip and feed forces were set at either 10 N or 50 N. The weakening of the finger vascular function was reflected by a reduction in the finger blood flow (FBF) and finger skin temperature (FST). They were tested on both hands at fixed intervals before, during and after the exposure for in-time measurement. Hand forces resulted in clear reductions in FBF and FST in exposed right fingers whether the force was exerted solely or combined with vibration. The greater the hand force (especially grip force), the stronger the vascular response, while the additional reductions in FBF and FST from vibration were not significant. In the non-exposed left fingers, no significant changes in finger circulation occurred in response to force or vibration. Generally, vibration-induced acute finger vasoconstriction was affected by the hand forces, in which hand force seemed to play a more important part than vibration. A larger grip force would lead to a greater loss in the digital circulation than feed force. Thus, the level of hand force exerted on the tool handle should be limited to reduce the risk of harm from HAV.
finger blood circulation, grip and feed exertions, hand-arm vibration
2571-631X
153-164
Gao, Shuxiang
e3d36e2e-05c8-48ec-a576-9311d554d7a7
Ye, Ying
5cfc9fff-c24f-4e7c-8a97-c78436d79966
Gao, Shuxiang
e3d36e2e-05c8-48ec-a576-9311d554d7a7
Ye, Ying
5cfc9fff-c24f-4e7c-8a97-c78436d79966

Gao, Shuxiang and Ye, Ying (2022) Acute vascular response of hand to force and vibration. Vibration, 5 (1), 153-164. (doi:10.3390/vibration5010010).

Record type: Article

Abstract

This study aimed to investigate the acute effect of grip and feed exertions on the vascular system at the fingers during exposure to hand-arm vibration (HAV), and to identify which active hand force situation would have the most effect on finger vascular function. A total of 12 individuals attended the test, and each of them were subjected to eight sets of force-and-vibration situations: four with combinations of forces and vibration, and four control ones with only hand forces applied. The vibration stimulus was applied on the right hand at 2.75 m/s2 with a frequency of 125 Hz for three minutes, during which the application of grip and feed forces were set at either 10 N or 50 N. The weakening of the finger vascular function was reflected by a reduction in the finger blood flow (FBF) and finger skin temperature (FST). They were tested on both hands at fixed intervals before, during and after the exposure for in-time measurement. Hand forces resulted in clear reductions in FBF and FST in exposed right fingers whether the force was exerted solely or combined with vibration. The greater the hand force (especially grip force), the stronger the vascular response, while the additional reductions in FBF and FST from vibration were not significant. In the non-exposed left fingers, no significant changes in finger circulation occurred in response to force or vibration. Generally, vibration-induced acute finger vasoconstriction was affected by the hand forces, in which hand force seemed to play a more important part than vibration. A larger grip force would lead to a greater loss in the digital circulation than feed force. Thus, the level of hand force exerted on the tool handle should be limited to reduce the risk of harm from HAV.

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Accepted/In Press date: 28 February 2022
Published date: 2 March 2022
Keywords: finger blood circulation, grip and feed exertions, hand-arm vibration

Identifiers

Local EPrints ID: 455203
URI: http://eprints.soton.ac.uk/id/eprint/455203
ISSN: 2571-631X
PURE UUID: 52098cbf-46fe-4127-949f-57fb7486d1b1
ORCID for Shuxiang Gao: ORCID iD orcid.org/0000-0003-0119-8445
ORCID for Ying Ye: ORCID iD orcid.org/0000-0002-7721-5451

Catalogue record

Date deposited: 15 Mar 2022 17:33
Last modified: 17 Mar 2024 03:57

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Contributors

Author: Shuxiang Gao ORCID iD
Author: Ying Ye ORCID iD

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