Spierbelasting en RSI

Marco J.M. Hoozemans; Bart Visser; Maaike A. Huysmans; Erwin M. Speklé; Jaap H. Van Dieën

Spierbelasting en RSI

Translated title of the contribution: Muscle load and repetitive strain injury (RSI)

Marco J.M. Hoozemans^*
, Bart Visser
, Maaike A. Huysmans
, Erwin M. Speklé
, Jaap H. Van Dieën

^*Corresponding author for this work

Vrije Universiteit Amsterdam
Faculteit der Bewegingswetenschappen

Research output: Contribution to journal › Review article › Academic › peer-review

Abstract

This paper presents an overview of theories concerning the development of RSI (repetitive strain injury), related to muscle disorders. Movement is a noisy process. The level of noise is affected by factors such as fatigue and psychosocial stress. In order for precision movements to be made in such situations, an increased level of muscle activity is required. Positive feedback loops through γ-motoneurones may be responsible for these increases in muscle activity. The Cinderella hypothesis suggests that damage may take place even when muscle activity is of low intensity, due to locally high levels of muscle load. An increase in calcium concentration in muscle cells during long periods of muscle activity may act as a mechanism of this damage. Optimisation of task demands and the prevention of continuous activation of the same groups of muscles appear to be effective measures in the prevention of RSI.

Translated title of the contribution	Muscle load and repetitive strain injury (RSI)
Original language	Dutch
Pages (from-to)	7-13
Number of pages	7
Journal	Geneeskunde en sport
Volume	38
Issue number	1
Publication status	Published - Feb 2005

Cite this

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title = "Spierbelasting en RSI",

abstract = "This paper presents an overview of theories concerning the development of RSI (repetitive strain injury), related to muscle disorders. Movement is a noisy process. The level of noise is affected by factors such as fatigue and psychosocial stress. In order for precision movements to be made in such situations, an increased level of muscle activity is required. Positive feedback loops through γ-motoneurones may be responsible for these increases in muscle activity. The Cinderella hypothesis suggests that damage may take place even when muscle activity is of low intensity, due to locally high levels of muscle load. An increase in calcium concentration in muscle cells during long periods of muscle activity may act as a mechanism of this damage. Optimisation of task demands and the prevention of continuous activation of the same groups of muscles appear to be effective measures in the prevention of RSI.",

author = "Hoozemans, \{Marco J.M.\} and Bart Visser and Huysmans, \{Maaike A.\} and Spekl{\'e}, \{Erwin M.\} and \{Van Die{\"e}n\}, \{Jaap H.\}",

year = "2005",

month = feb,

language = "Dutch",

volume = "38",

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journal = "Geneeskunde en sport",

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TY - JOUR

T1 - Spierbelasting en RSI

AU - Hoozemans, Marco J.M.

AU - Visser, Bart

AU - Huysmans, Maaike A.

AU - Speklé, Erwin M.

AU - Van Dieën, Jaap H.

PY - 2005/2

Y1 - 2005/2

N2 - This paper presents an overview of theories concerning the development of RSI (repetitive strain injury), related to muscle disorders. Movement is a noisy process. The level of noise is affected by factors such as fatigue and psychosocial stress. In order for precision movements to be made in such situations, an increased level of muscle activity is required. Positive feedback loops through γ-motoneurones may be responsible for these increases in muscle activity. The Cinderella hypothesis suggests that damage may take place even when muscle activity is of low intensity, due to locally high levels of muscle load. An increase in calcium concentration in muscle cells during long periods of muscle activity may act as a mechanism of this damage. Optimisation of task demands and the prevention of continuous activation of the same groups of muscles appear to be effective measures in the prevention of RSI.

AB - This paper presents an overview of theories concerning the development of RSI (repetitive strain injury), related to muscle disorders. Movement is a noisy process. The level of noise is affected by factors such as fatigue and psychosocial stress. In order for precision movements to be made in such situations, an increased level of muscle activity is required. Positive feedback loops through γ-motoneurones may be responsible for these increases in muscle activity. The Cinderella hypothesis suggests that damage may take place even when muscle activity is of low intensity, due to locally high levels of muscle load. An increase in calcium concentration in muscle cells during long periods of muscle activity may act as a mechanism of this damage. Optimisation of task demands and the prevention of continuous activation of the same groups of muscles appear to be effective measures in the prevention of RSI.

UR - https://www.scopus.com/pages/publications/14944378409

M3 - Review article

AN - SCOPUS:14944378409

SN - 0016-6448

VL - 38

SP - 7

EP - 13

JO - Geneeskunde en sport

JF - Geneeskunde en sport

IS - 1

ER -

Spierbelasting en RSI

Abstract

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