R. B. Armstrong scite author profile

The objective of this review is to evaluate the measurement tools currently used in the study of eccentric contraction-induced muscle injury, with emphasis on their usefulness for quantifying the magnitude and duration of the injury and as indicators of muscle functional deficits. In studies in humans, it was concluded that measurements of maximal voluntary contraction torque and range of motion provide the best methods for quantifying muscle injury. Similarly, in animal studies, the in vitro measurement of electrically elicited force under isometric conditions was considered to be the best of the measurement tools currently in use. For future studies, more effort should be put into measuring other contractile parameters (e.g. force/torque-velocity and force/torque-length relationships maximal shortening velocity and fatigue susceptibility) that may reflect injury-induced functional impairments. The use of histology, ratings of soreness and the measurement of blood or bath levels of myofibre proteins should be discouraged for purposes of quantifying muscle injury and/or functional impairment.

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Muscle fiber type composition of the rat hindlimb

Armstrong

1984

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The purpose of this study was to estimate the absolute and relative masses of the three types of skeletal muscle fibers in the total hindlimb of the male Sprague-Dawley rat (Rattus norvegicus). For six rats, total body mass was recorded and the following weights taken from dissection of one hindlimb: 32 individual major muscles or muscle parts, remaining skeletal musculature (small hip muscles and intrinsic foot muscles), bone, inguinal fat pad, and skin. The fibers from the 32 muscles or muscle parts (which constituted 98% of the hindlimb skeletal muscle mass) were classified from histochemistry as fast-twitch oxidative glycolytic (FOG), fast-twitch glycolytic (FG), or slow-twitch oxidative (SO), and their populations were determined. Fiber cross-sectional areas from the same muscles were measured with a digitizer. Mass of each of the fiber types within muscles and in the total hindlimb was then calculated from fiber-type population, fiber-type area, and muscle-mass data. Skeletal muscle made up 71% of the total hindlimb mass. Of this, 76% was occupied by FG fibers, 19% by FOG fibers, and 5% by SO fibers. Thus, the FG fiber type is clearly the predominant fiber type in the rat hindlimb in terms of muscle mass. Fiber-type mass data are compared with physiological (blood flow) and biochemical (succinate dehydrogenase activities) data for the muscles taken from previous studies, and it is demonstrated that these functional properties are closely related to the proportions of muscle mass composed of the various fiber types.

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Eccentric exercise-induced injury to rat skeletal muscle

Armstrong

Ogilvie

Schwane

1983

Journal of Applied Physiology

671

465

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These experiments were designed to study skeletal muscle pathology resulting from eccentric-biased exercise in rats. The effects on the muscles of running on a treadmill on a 0 degrees incline (similar amounts of concentric and eccentric contractions), down a 16 degrees incline (primarily eccentric contractions), and up a 16 degrees incline (primarily concentric contractions) at 16 m . min-1 for 90 min were assessed by following postexercise changes in 1) plasma creatine kinase and lactate dehydrogenase activities, 2) glucose-6-phosphate dehydrogenase (G-6-PDase) activity (bio- and histochemically) in the physiological extensor muscles, and 3) histological appearance of the muscles. The data indicate the following. 1) Whereas all exercise protocols resulted in elevations of plasma enzymes immediately after running, only eccentric exercise caused late phase elevations 1.5-2 days postexercise. 2) Significant increases in muscle G-6-PDase activity, which were always associated with accumulations of mononuclear cells, always occurred within some muscles of each extensor group 1-3 days following downhill and uphill running and did not occur following level running; the increases in activity were usually of lower magnitude in the muscles of uphill runners than in those of downhill runners; the deeply located, predominantly slow-twitch muscles were most affected by both down- and uphill running. 3) Muscle histology demonstrated localized disruption of normal banding patterns of some fibers immediately after exercise and accumulations of macrophages in the interstitium and in some (less than 5%) muscle fibers by 24 h postexercise in the deep slow muscles of the antigravity groups. Although the data generally indicated that eccentric exercise causes greater injury to the muscles, questions remain.

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Effect of integrated responsive stimulation and nutrition interventions in the Lady Health Worker programme in Pakistan on child development, growth, and health outcomes: a cluster-randomised factorial effectiveness trial

et al. 2014

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Mechanisms of exercise-induced delayed onset muscular soreness

Armstrong¹

1984

Medicine & Science in Sports & Exercise

519

416

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R. B. Armstrong

Measurement Tools Used in the Study of Eccentric Contraction???Induced Injury

Muscle fiber type composition of the rat hindlimb

Eccentric exercise-induced injury to rat skeletal muscle

Effect of integrated responsive stimulation and nutrition interventions in the Lady Health Worker programme in Pakistan on child development, growth, and health outcomes: a cluster-randomised factorial effectiveness trial

Mechanisms of exercise-induced delayed onset muscular soreness

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