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Background: The aim of the present study was to determine the response of lung function indices to aerobic and anaerobic exercises in polluted air. Materials and Methods: In this quasi-experimental study, 20 healthy men were randomly divided into two equal groups experiment and control. The experiment group initially had one session of aerobic exercise and after a three-week break, received one session of anaerobic exercise on ergometer bicycle in polluted air. The control group did the same kind of exercise in healthy clean air. Lung function tests were run before, right after (the first post-test), and 24 hours after the exercises (the second post-test). Results: Aerobic exercise in unhealthy polluted air resulted in the significant reduction of FEV1, FVC, and FEF25-75% indices in the first and second post-tests. Following anaerobic exercises in polluted air, a significant decrease was observed in FVC and FEF25-75% indices in both the first and second post-tests. FEV1 and FEF25-75% indices in the first and second post-tests, and FEV1 and FVC indexes in the second post-tests underwent a remarkably greater reduction following aerobic exercise. Conclusion: While aerobic physical exercise in polluted air caused a reduction in the lung function indices (FEV1, FVC and FEF25-75%) in the first and second post-tests, it seemed that anaerobic exercises in polluted air induced a significantly smaller reduction in FEV1 and FEF25-75% in the first and second post tests, and FEV1/FVC in the second post test.

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Background and Aim: Following physical activity in various tissues of the body, oxidative stress occurs and affects the antioxidant capacity and consequently the fertility of men negatively. The aim of this study was to investigate the effects of resistance training on oxidative stress and spermatogenesis quality. Materials and Methods: 20 male rats of Sprague Dawley (weight 200-250, 4 months old) were randomly divided into two groups of resistance training and control group (n = 10). The exercise program included climbing a ladder by hanging the load to the tail for 8 weeks (5 days a week, 3 times 4 repetitions). During the program, the load gradually was increased, and in the last week, it reached to 200% of the animal body weight. After intervention, the mice were anesthetized in separate groups and testicular tissue was isolated to evaluate Malondialdehyde index as an oxidative stress marker and to determine antioxidant capacity by Frap method. Fixation, processing, cutting of testicular tissue and eventually coloring steps were examined by Hematoxylin and Eosin (H & E). The spermatogenesisqualitywas calculated based on Johnson method. The data were analyzed by independent t-test was used and significance level was considered p <0.05. Findings: Increased Malondialdehyde levels were observed in the treatment group compared to control group (p =0.01). In the training group, the spermatogenesis quality was lower (p =0.013), the antioxidant capacity in the training group was significantly higher than the control group (p‏=0.83) and there isn’t any significant difference. Conclusion: The findings indicate thatdue to increased oxidative stress, increasing resistance training may have negative effects on the quality of spermatogenesis and men's fertility.