Repetitive strain injury

doi:10.1017/CBO9780511543579.223

Repetitive strain injury

from Medical topics

Published online by Cambridge University Press: 18 December 2014

Edited by

John Weinman and

Gerard P. Van Galen: Affiliation:
Nijmegen Institute for Cognition and Information
Susan Ayers: Affiliation:
University of Sussex
Andrew Baum: Affiliation:
University of Pittsburgh
Chris McManus: Affiliation:
St Mary's Hospital Medical School
Stanton Newman: Affiliation:
University College and Middlesex School of Medicine
Kenneth Wallston: Affiliation:
Vanderbilt University School of Nursing
John Weinman: Affiliation:
United Medical and Dental Schools of Guy's and St Thomas's
Robert West: Affiliation:
St George's Hospital Medical School, University of London

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Summary

Repetitive strain injury (RSI) is a syndrome in the upper extremities (hands, arms, shoulder and/or neck) and is characterized by sensations of pain, stiffness, fatigue, heat and cold, tingling, numbness, redness of the skin, cramps and loss of fine movement control, eventually leading to general disability. Usually pain, fatigue and stiffness, especially in the neck and shoulder region, are early symptoms, whereas functional loss and disability are mostly seen in advanced states. Initial, temporary episodes of pain and fatigue during repetitive tasks are defined as phase I severity. In phase II the pain has become more persistent and has generalized to other everyday movements. In phase III, pain and functional loss are continuous and unrelated to repetitious movements.

Since symptoms primarily develop in people whose work involves repetitious movements during long shifts, RSI is considered a typical occupational disorder with overuse of upper extremity muscles as a common denominator, although excessive computer gaming has been known to cause RSI complaints as well (‘Nintendo arm’). Alternative terms are ‘occupational overuse syndrome’, ‘work-related upper extremity disorder’ (WRUED) and sometimes ‘focal dystonia’, although the latter term essentially refers to a different, neurological disorder.

Specific and non-specific forms of RSI

RSI complaints generally do not relate to any known biological disorder. Only in a minority of cases (<15%) does standard medical examination reveal tendomyogene or peripheral neuro-conductive abnormalities (Kiesler & Finholt, 1988). To allow a differential diagnosis of specific or non-specific RSI a protocol has been developed with discriminating provocative tests (Sluiter et al., 2001).

Type: Chapter
Information: Cambridge Handbook of Psychology, Health and Medicine , pp. 846 - 849

DOI: https://doi.org/10.1017/CBO9780511543579.223 [Opens in a new window]

Publisher: Cambridge University Press

Print publication year: 2007

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References

Bernard, B. P. (Ed.). (1997). Musculoskeletal disorders and workplace factors: A critical review of epidemiologic evidence for work-related musculoskeletal disorders of the neck, upper extremity, and low back. (2nd printing). Cincinnati, OH: US Department of Health and Human Services.

Bloemsaat, J. G., Ruijgrok, J. M. & Galen, G. P. (2004). Patients suffering from nonspecific work related upper extremity disorders exhibit insufficient movement strategies. Acta Psychologica, 115, 17–33.Google Scholar

Bongers, P. M., Kremer, A. M. & Laak, J. (2002). Are psychosocial factors, risk factors for symptoms and signs of the shoulder, elbow, or hand/wrist? A review of the epidemiological literature. American Journal of Industrial Medicine, 41, 315–42.Google Scholar

Byl, N. N., Merzenich, M. M. & Jenkins, W. M. (1996). A primate genesis model of focal dystonia and repetitive strain injury: I. Learning-induced dedifferentiation of the representation of the hand in the primary somatosensory cortex in adult monkeys. Neurology, 47, 508–20.Google Scholar

Clauw, D. J. & Chrousos, G. P. (1997). Chronic pain and fatigue syndromes: overlapping clinical and neuroendocrine features and potential pathogenic mechanisms. Neuroimmunomodulation, 4, 134–53.Google Scholar

Dembe, A. E. (1999). The changing nature of office work: effects on repetitive strain injuries. Occupational Medicine State of the Art Reviews, 14, 61–72.Google Scholar

Faucett, J., Garry, M., Nadler, D. & Ettare, D. (2002). A test of two training interventions to prevent work-related musculoskeletal disorders of the upper extremity. Applied Ergonomics, 33, 337–47.Google Scholar

Gomer, F. E., Silverstein, L. D., Berg, W. K. & Lassiter, D. L. (1987). Changes in electromyographic activity associated with occupational stress and poor performance in the workplace. Human Factors, 29, 131–43.Google Scholar

Gribble, P. L., Mullin, L. I., Cothros, N. & Mattar, A. (2003). Role of cocontraction in arm movement accuracy. Journal of Neurophysiology, 89, 2396–405.Google Scholar

Hughes, M. & McLellan, D. L. (1985). Increased co-activation of the upper limb muscles in writer's cramp. Journal of Neurology, Neurosurgery, and Psychiatry, 48, 782–7.Google Scholar

Karjalainen, K., Malmivaara, A., Tulder, M.et al. (2003 a). Multidisciplinary rehabilitation for fibromyalgia and musculoskeletal pain in working age adults. (Cochrane Review). In: The Cochrane Library, Issue 4. Chichester, UK: John Wiley & Sons, Ltd.

Karjalainen, K., Malmivaara, A., Tulder, M.et al. (2003 b). Multidisciplinary biopsychosocial rehabilitation for neck and shoulder pain among working age adults. (Cochrane Review). In: The Cochrane Library, Issue 4. Chichester, UK: John Wiley & Sons, Ltd.

Kiesler, S. & Finholt, T. (1988). The mystery of RSI. American Psychologist, 43, 1004–15.Google Scholar

Konijnenberg, H. S., Wilde, N. S., Gerritsen, A. A.et al. (2001). Conservative treatment for repetitive strain injury. Scandinavian Journal Work Environment & Health, 27, 299–310.Google Scholar

Laursen, B., Jensen, B. R., Garde, A. H. & Jorgensen, A. H. (2002). Effect of mental and physical demands on muscular activity during the use of a computer mouse and keyboard. Scandinavian Journal of Work Environment & Health, 28, 215–21.Google Scholar

Levenstein, C. (1999). Economic losses from repetitive strain injuries. Occupational Medicine State of the Art Reviews, 14, 149–61.Google Scholar

Lincoln, A. E. (2001). A summary of ‘Interventions for the primary prevention of work-related carpal tunnel syndrome’. In Bittner, A. C., Champney, P. C. & Morrissey, S. J. (Eds.). Advances in occupational ergonomics and safety, (pp. 47–54). Amsterdam: IOS Press.

National Health Council of the Netherlands. (2000). RSI. The Hague: National Health Council. (Publication number 2000/22.)

National Research Council and the Institute of Medicine. (2001). Musculoskeletal disorders and the workplace: low back and upper extremities. Washington, DC: National Academy Press.

Nord, S., Ettare, D., Drew, D. & Hodge, S. (2001). Muscle learning therapy: efficacy of a biofeedback based protocol in treating work-related upper extremity disorders. Journal of Occupational Rehabilitation, 11, 23–31.Google Scholar

Rempel, D., Tittiranonda, P., Burastero, S., Hudes, M. & So, Y. (1999). Effect of keyboard keyswitch design on hand pain. Journal of Occupational and Environmental Medicine, 41, 111–19.Google Scholar

Sluiter, J. K., Rest, K. M. & Frings-Dresen, M. H. W. (2001). Criteria document for evaluating the work-relatedness of upper-extremity musculoskeletal disorders. Scandinavian Journal of Work Environment & Health, 27, Suppl. 1, 1–102.Google Scholar

Sogaard, K., Sjøgaard, G., Finsen, L., Olsen, H. B. & Christensen, H. (2001). Motor unit activity during stereotyped finger tasks and computer mouse work. Journal of Electromyography & Kinesiology, 11, 197–206.Google Scholar

Tittiranonda, P., Rempel, D., Armstrong, T. & Burastero, S. (1999). Effect of four computer keyboards in computer users with upper extremity musculoskeletal disorders. American Journal of Industrial Medicine, 35, 647–61.Google Scholar

Heuvel, S., Looze, M. P., Hildebrandt, V. H. & Thé, K. H. (2003). The effects on work-related neck and upper limb disorders of software programs that stimulate regular breaks and excercises – a randomized controlled trial. Scandinavian Journal of Work Environment & Health, 29, 106–16.Google Scholar

Galen, G. P. & Huygevoort, M. A. (2000). Error, stress the role of neuromotor noise in space oriented behaviour. Biological Psychology, 51, 151–71.Google Scholar

Verhagen, A. P., Bierma-Zeinstra, S. M. A., Karels, C.et al. (2004). Ergonomic and physiotherapeutic interventions for treating upper extremity work related disorders in adults Cochrane Database Syst Rev; (1):CD003471.

Visser, B., Looze, M. P., Graaff, M. P. & Dieën, J. H. (2004). Effects of precision demands and mental pressure on muscle activation and hand forces in computer mouse tasks. Ergonomics, 47, 202–17.Google Scholar

Vlaeyen, J. W. S. & Linton, S. J. (2000). Fear-avoidance and its consequences in chronic musculoskeletal pain. A state of the art. Pain, 85, 317–32.Google Scholar

Westgaard, R. H. & DeLuca, C. J. (1999). Motor unit substitution in long-duration contractions of the human trapezius muscle. Journal of Neurophysiology, 82, 501–4.Google Scholar

Windgassen, K. & Ludolph, A. (1991). Psychiatric aspects of writer's cramp. European Archive of Psychiatry and Clinical Neuroscience, 241, 170–6.Google Scholar

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