Int J Sports Med 2004; 25(1): 73-77
DOI: 10.1055/s-2003-45234
Orthopedics & Biomechanics
© Georg Thieme Verlag Stuttgart · New York

Influence of Therapeutic Ultrasound on Skeletal Muscle Regeneration Following Blunt Contusion

L. D.  Wilkin1 , M. A.  Merrick1 , T. E.  Kirby1 , S. T.  Devor1
  • 1Ultrasound treatment: muscle regeneration, Section of Sport and Exercise Sciences, The Ohio State University, Columbus, OH, USA
Further Information

Publication History

Accepted after revision: May 30, 2003

Publication Date:
29 January 2004 (online)


Athletic trainers typically use therapeutic ultrasound to treat skeletal muscle contusion injuries. However, the structural outcomes underlying this treatment are not well understood. Our working hypothesis was that following a blunt contusion injury to the gastrocnemius muscle, ultrasound treatment would facilitate recovery, as indicated by changes in several biological markers of skeletal muscle regeneration. Eighty male Wistar rats (three-month) were studied. Following anesthetic administration, each animal received a bilateral contusion injury to the gastrocnemius muscle. Pulsed ultrasound treatment was subsequently initiated six hours post-contusion injury unilaterally on the right gastrocnemius muscle, and ultrasound treatment was continued once daily for seven days. The left (non-ultrasound treated) and right (ultrasound treated) gastrocnemius muscles of 10 animals per group were excised at 1-, 3-, 5-, 7-, 14-, 21-, 28-, and 40-days post-contusion injury. There were no differences in muscle mass, total protein concentration, or fiber cross-sectional area between the right and left gastrocnemius muscles at any post-injury time point examined. Further, when fiber cross-sectional area was normalized to muscle mass, there were no differences. Myonuclear number and cross-sectional area per myonuclei between the right and left gastrocnemius muscles were not different. These results suggest that ultrasound, as administered, does not hasten or improve the regeneration of skeletal muscle following contusion injury.


 S. T. Devor Ph. D.

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