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Sarcomere strain and heterogeneity correlate with injury to frog skeletal muscle fiber bundles

¹Departments of Orthopaedic Surgery and Bioengineering, Biomedical Sciences Graduate Group, University of California and Veterans Affairs Medical Centers, San Diego, California 92161; ²Department of Hand Surgery, Sahlgrenska University Hospital, S-413 45 Göteborg, Sweden; and ³Department of Pharmacology and Physiology, Drexel University College of Medicine, Philadelphia, Pennsylvania 19129

Submitted 13 May 2003 ; accepted in final form 16 June 2004

Sarcomere length and first-order diffraction line width were measured by laser diffraction during elongation of activated frog tibialis anterior muscle fiber bundles (i.e., eccentric contraction) at nominal fiber strains of 10, 25, or 35% (n = 18) for 10 successive contractions. Tetanic tension, measured just before each eccentric contraction, differed significantly among strain groups and changed dramatically during the 10-contraction treatment (P < 0.01). Average maximum tetanic tension for the three groups measured before any treatment was 203.7 ± 6.8 kN/m², but after the 10-eccentric contraction sequence decreased to 180.3 ± 3.8, 125.1 ± 7.8, and 78.3 ± 5.1 kN/m² for the 10, 25, and 35% strain groups, respectively (P < 0.0001). Addition of 10 mM caffeine to the bathing medium decreased the loss of tetanic tension in the 10% strain group but had only a minimal effect on either the 25 or 35% strain groups. Diffraction pattern line width, a measure of sarcomere length heterogeneity, increased significantly with muscle activation and then continued to increase with successive stretches of the activated muscle. Line width increase after each stretch was significantly correlated with the lower yield tension of the successive contractile record. These data demonstrate a direct association and, perhaps, a causal relationship between sarcomere strain and fiber bundle injury. They also demonstrate that muscle injury is accompanied by a progressive increase in sarcomere length heterogeneity, yielding lower yield tension as injury progresses.

mechanics; eccentric contraction; cytoskeleton; laser diffraction

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