Abstract
Changes in the indirectly elicited isometric twitch tension, tetanic tension, twitch-to-tetanus ratio, and post-tetanic potentiation in response to fatigue were examined in the posterior latissimus dorsi muscles of normal and genetically dystrophic New Hampshire chickens. Contractile parameters were studied during 3-h fatigue stimulations and during continuous infusion of potassium chloride (0.24 m equiv/min) initiated at the conclusion of the fatigue period. Both twitch and tetanic tension of dystrophic muscles showed a relative resistance to fatigue; no significant changes in either twitch-to-retanus ratio or post-tetanic potentiation occurred during the fatigue period. In contrast, twitch and tetanic tension of normal muscles decreased more rapidly and to a greater extent in response to fatigue. The twitch-to-tetanus ratio decreased and post-tetanic potentiation increased such that after 30 min they were not significantly different from values seen in dystrophic muscles. Potassium chloride infusion produced a significant recovery (two- to ninefold improvement) of the fatigued twitch response to dystrophic muscle but did not have a significant effect on fatigued normal muscles. A comparison of directly and indirectly elicited twitch contractions indicated that part of the decrement of contractile response in dystrophic muscle was due to synaptic failure at the neuromuscular junction and that potassium chloride infusion resulted in restoration of neuromuscular transmission. It is suggested that the difference in fatigue pattern observed between normal and dystrophic muscle was a function of an altered distribution in the physiological types of motor units present in the diseased muscle.
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