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Unaccustomed exercise is followed by delayed-onset muscle soreness and morphological changes in skeletal muscle. Animal studies have demonstrated that women have an attenuated response to muscle damage. We studied the effect of eccentric exercise in untrained male (n = 8) and female (n = 8) subjects using a unilateral exercise design [exercise (Ex) and control (Con) legs]. Plasma granulocyte counts [before (Pre) and 48 h after exercise (+48h)] and creatine kinase activity [Pre, 24 h after exercise (+24h), +48h, and 6 days after exercise (+6d)] were determined before (Pre) and after (+24h, +48h, +6d) exercise, with biopsies taken from the vastus lateralis of each leg at +48h for determination of muscle damage and/or inflammation. Plasma granulocyte counts increased for men and decreased for women at +48h (P < 0.05), and creatine kinase activity increased for both genders at +48h and +6d (P < 0.01). There were significantly greater areas of both focal (P < 0.001) and extensive (P < 0.01) damage in the Ex vs. Con leg for both genders, which was assessed by using toluidine blue staining. The number of leukocyte common antigen-positive cells/mm(2) tissue increased with exercise (P < 0.05), and men tended to show more in their Ex vs. Con leg compared with women (P = 0.052). Men had a greater total (Ex and Con legs) number of bcl-2-positive cells/mm(2) tissue vs. women (P < 0.05). Atrophic fibers with homogeneous bcl-2-positive staining were seen only in men (n = 3). We conclude that muscle damage is similar between genders, yet the inflammatory response is attenuated in women vs. men. Finally, exercise may stimulate the expression of proteins involved in apoptosis in skeletal muscle.

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Some Physico-Chemical Factors in Drug Action

Brodie

Hogben

1957

402

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Ionic Transfer Across the Isolated Frog Large Intestine

Cooperstein

Hogben

1959

101

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The unidirectional fluxes of sodium, chloride, and of the bicarbonate and CO2 pair were determined across the isolated large intestine of the bullfrog, Rana catesbiana.The isolated large intestine of the frog is characterized by a mean transmembrane potential of 45 my., serosal surface positive with respect to mucosal. The unidirectional sodium flux from mucosal to serosal surface was found to be equal to the short-circuit current, thus the net flux was less than the simultaneous short-circuit current. This discrepancy between active sodium transport and short-circuit current can be attributed to the active transport of cation in the same direction as sodium and/or the active transport of anion in the opposite direction. The unidirectional fluxes of chloride and the bicarbonate and CO, pair revealed no evidence for active transport of either anion. A quantitative study of chloride fluxes at 45 my. revealed a flux ratio of 1.8 which is considerably less than a ratio of 6 expected for free passive diffusion. It was concluded that a considerable proportion of the isotopic transfer of chloride could be attributed to "exchange diffusion." Study of the electrical properties of the isolated frog colon reveals that it can be treated as a simple D. C. resistance over the range of -2 0 to +95 my. INTRODUCTIONThe epithelia of the frog have been demonstrated to be excellent objects for the study of electrolyte and water movement. Studies of ionic movement across the isolated skin and stomach have provided valuable information about the nature of sodium and chloride transport (1, 2). A preliminary report by Ussing and Andersen (3) indicates that the active transport of sodium is essential for the generation of an electrical potential difference across the colon mucosa. Sodium transport alone cannot account for the striking pH gradients which may develop across the large intestinal epithelium of many species (4). The following study confirms and extends the earlier study of the transmucosal * A portion of these results has been presented previously (Fed. Proc., 1957, 16, 24).

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C. Adrian M. Hogben

Gender differences in muscle inflammation after eccentric exercise

Some Physico-Chemical Factors in Drug Action

Ionic Transfer Across the Isolated Frog Large Intestine

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