The heat of shortening and the dynamic constants of muscle
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TLDR
In this article, a more accurate and rapid technique for muscle heat measurement was proposed, and some astonishingly simple and accurate relations have been found, which determine the effect of load on speed of shortening, allow the form of the isometric contraction to be predicted, and are the basis of the so-called "visco-elasticity" of skeletal muscle.Abstract:
The hope was recently expressed (Hill 1937, p. 116) that with the development of a more accurate and rapid technique for muscle heat measurement, a much more consistent picture might emerge of the energy relations of muscles shortening (or lengthening) and doing positive (or negative) work. This hope has been realized, and some astonishingly simple and accurate relations have been found, relations, moreover, which (among other things) determine the effect of load on speed of shortening, allow the form of the isometric contraction to be predicted, and are the basis of the so-called “visco-elasticity” of skeletal muscle. This paper is divided into three parts. In Part I further developments of the technique are described: everything has depended on the technique, so no apology is needed for a rather full description of it and of the precautions necessary. In Part II the results themselves are described and discussed. In Part III the “visco-elastic” properties of active muscle are shown to be a consequence of the properties described in Part II.read more
Citations
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Phosphate and acidosis act synergistically to depress peak power in rat muscle fibers.
TL;DR: The data indicate the collective effects of elevating H(+) and Pi on maximal isometric force and peak power are stronger than what either ion exerts individually and suggest the ions act synergistically to reduce muscle function during fatigue.
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Effect of Muscle Length on the Force-Velocity Relationship of Tetanized Cardiac Muscle
TL;DR: Cat papillary muscles were tetanized with repetitive electrical stimulation in the presence of 10 mM caffeine and 10 mM calcium to produce isometric force, maximum velocity, and muscle length in almost direct proportion to muscle shortening.
Journal ArticleDOI
The consequences of fibre heterogeneity on the force‐velocity relation of skeletal muscle
R. K. Josephson,K. A. P. Edman +1 more
TL;DR: The consequences of fibre heterogeneity on the collective force-velocity properties of bundles of parallel fibres were examined in a simulation model and the predicted and measured force-VELocity curves were in excellent agreement.
Journal ArticleDOI
History dependence of force production in skeletal muscle: a proposal for mechanisms.
TL;DR: A mechanism is proposed to explain the long-lasting, isometric force depression following muscle shortening and some of the experimental evidence in support of this mechanism is presented.
Journal ArticleDOI
The working stroke of the myosin II motor in muscle is not tightly coupled to release of orthophosphate from its active site
TL;DR: The results indicate that the release of Pi from the catalytic site of an actin‐attached myosin motor can occur at any stage of the working stroke, and a myOSin motor uses two consecutive actin monomers to maximize the power during shortening.
References
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The visco-elastic properties of frog's muscles.
TL;DR: The behaviour under sudden stress, or under sudden extension, of all visco-elastic substances (rubber, gelatin jellies, etc.) suggests a system partly damped, partly undamped.
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The thermo‐elastic properties of muscle
TL;DR: The great improvement in myothermic technique achieved in recent years suggested a re-investigation of the problem, and this is described below, where the coefficient of linear expansion of muscle is negative when its initial extension is less than 35 p.c. of its unloaded length and with greater initial extension the coefficient becomes positive.