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Allen N.E. et al., Hormones and diet: low insulin-like growth factor-I but normal bioavailable androgens in vegan men, „British Journal of Cancer” 2000, 83(1), 95–97.
Cadegiani F.A., Kater C.A., Hormonal aspects of overtraining syndrome: a systematic review, „BMC Sports Science, Medicine and Rehabilitation” 2017, 9(1), 1–15.
Hansen S. et al., The effect of short-term strength training on human skeletal muscle: the importance of physiologically elevated hormone levels, „The Scandinavian Journal of Medicine & Science in Sports” 2001, 11(6), 347–354.
Karkoulias K. et al., Hormonal responses to marathon running in non-elite athletes, „European Journal of Internal Medicine” 2008, 19(8), 598–601.
Sallinen J. et al., Relationship between diet and serum anabolic hormone responses to heavy-resistance exercise in men, „International Journal of Sports Medicine” 2004, 25(8), 627–633.
Wood R.I., Stanton S.J., Testosterone and sport: current perspectives, „Hormones and Behavior” 2012, 6(1), 147–155.
West D.W. et al., Sex-based comparisons of myofibrillar protein synthesis after resistance exercise in the fed state, „Journal of Applied Physiology” 2012, 112, 1805–1813.
West D.W. et al., Elevations in ostensibly anabolic hormones with resistance exercise enhance neither training-induced muscle hypertrophy nor strength of the elbow flexors, „Journal of Applied Physiology” 2010, 108(1), 60–67.
Wrzosek M., Włodarek D., Wpływ podaży makroskładników odżywczych i wartości energetycznej diety na stężenie testosteronu u mężczyzn uprawiających sport, „Polish Journal of Sports Medicine” 2018, 34(1), 9–18.
Allen N.E. et al., Hormones and diet: low insulin-like growth factor-I but normal bioavailable androgens in vegan men, „British Journal of Cancer” 2000, 83(1), 95–97.
Cadegiani F.A., Kater C.A., Hormonal aspects of overtraining syndrome: a systematic review, „BMC Sports Science, Medicine and Rehabilitation” 2017, 9(1), 1–15.
Hansen S. et al., The effect of short-term strength training on human skeletal muscle: the importance of physiologically elevated hormone levels, „The Scandinavian Journal of Medicine & Science in Sports” 2001, 11(6), 347–354.
Karkoulias K. et al., Hormonal responses to marathon running in non-elite athletes, „European Journal of Internal Medicine” 2008, 19(8), 598–601.
Sallinen J. et al., Relationship between diet and serum anabolic hormone responses to heavy-resistance exercise in men, „International Journal of Sports Medicine” 2004, 25(8), 627–633.
Wood R.I., Stanton S.J., Testosterone and sport: current perspectives, „Hormones and Behavior” 2012, 6(1), 147–155.
West D.W. et al., Sex-based comparisons of myofibrillar protein synthesis after resistance exercise in the fed state, „Journal of Applied Physiology” 2012, 112, 1805–1813.
West D.W. et al., Elevations in ostensibly anabolic hormones with resistance exercise enhance neither training-induced muscle hypertrophy nor strength of the elbow flexors, „Journal of Applied Physiology” 2010, 108(1), 60–67.
Wrzosek M., Włodarek D., Wpływ podaży makroskładników odżywczych i wartości energetycznej diety na stężenie testosteronu u mężczyzn uprawiających sport, „Polish Journal of Sports Medicine” 2018, 34(1), 9–18.