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Lundi : 8h-18h30
Mardi : 8h-17h30
Mercredi 9h-16h30
Jeudi : 8h30-18h30
Vendredi : 8h30-12h30 et 13h-14h30
Votre centre de documentation sera exceptionnellement fermé de 12h30 à 13h ce lundi 18 novembre.
Egalement, il sera fermé de 12h30 à 13h30 ce mercredi 20 novembre.
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Auteur Mahvash Jafari |
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Evaluation of the effects of different intensities of forced running wheel exercise on oxidative stress biomarkers in muscle, liver and serum of untrained rats / Seyed Reza Mousavi in LabAnimal, 5/2020 (Mai 2020)
[article]
Titre : Evaluation of the effects of different intensities of forced running wheel exercise on oxidative stress biomarkers in muscle, liver and serum of untrained rats Type de document : texte imprimé Auteurs : Seyed Reza Mousavi ; Mahvash Jafari ; Sajjad Rezaei ; et al. Année de publication : 2020 Article en page(s) : p. 10-15 Langues : Anglais (eng) Résumé : Exercise induces different effects on antioxidant status depending on its intensity. The forced running wheel (FRW) model maintains a constant intensity and volume during exercise. The aim of the present study was to investigate the effects of FRW exercise at different running speeds on several serum biochemical parameters of liver and muscle functions and on oxidative stress biomarkers in skeletal muscle, liver and serum in the rat. Thirty-six male Wistar rats were randomly divided into six groups. Five groups participated in constant power tests at intensities of 10, 13, 14.5, 16, and 17.5 m/min, and a non-exercise group was chosen as the control. Serum, muscle and liver tissues were collected after the tests and analyzed. At speeds >16 m/min, exercise on an FRW significantly increased several serum biochemical parameters, malondialdehyde level and superoxide dismutase activity in all tissues of exercise rats compared with control rats; FRW exercise also increased catalase activity in the liver and glutathione S-transferase activity in muscle, whereas it decreased glutathione level in all tissues and catalase activity in muscle and serum. These data suggest that FRW exercise in rats activates an adaptation of the antioxidant system response in skeletal muscle at speeds <16 m/min, whereas it induces oxidative stress at higher speeds in muscle, liver and serum. In addition, we observed a correlation between the systematic and local oxidative stress status in rats after exercise on FRW. Permalink : ./index.php?lvl=notice_display&id=88531
in LabAnimal > 5/2020 (Mai 2020) . - p. 10-15[article] Evaluation of the effects of different intensities of forced running wheel exercise on oxidative stress biomarkers in muscle, liver and serum of untrained rats [texte imprimé] / Seyed Reza Mousavi ; Mahvash Jafari ; Sajjad Rezaei ; et al. . - 2020 . - p. 10-15.
Langues : Anglais (eng)
in LabAnimal > 5/2020 (Mai 2020) . - p. 10-15
Résumé : Exercise induces different effects on antioxidant status depending on its intensity. The forced running wheel (FRW) model maintains a constant intensity and volume during exercise. The aim of the present study was to investigate the effects of FRW exercise at different running speeds on several serum biochemical parameters of liver and muscle functions and on oxidative stress biomarkers in skeletal muscle, liver and serum in the rat. Thirty-six male Wistar rats were randomly divided into six groups. Five groups participated in constant power tests at intensities of 10, 13, 14.5, 16, and 17.5 m/min, and a non-exercise group was chosen as the control. Serum, muscle and liver tissues were collected after the tests and analyzed. At speeds >16 m/min, exercise on an FRW significantly increased several serum biochemical parameters, malondialdehyde level and superoxide dismutase activity in all tissues of exercise rats compared with control rats; FRW exercise also increased catalase activity in the liver and glutathione S-transferase activity in muscle, whereas it decreased glutathione level in all tissues and catalase activity in muscle and serum. These data suggest that FRW exercise in rats activates an adaptation of the antioxidant system response in skeletal muscle at speeds <16 m/min, whereas it induces oxidative stress at higher speeds in muscle, liver and serum. In addition, we observed a correlation between the systematic and local oxidative stress status in rats after exercise on FRW. Permalink : ./index.php?lvl=notice_display&id=88531 Réservation
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