Effects of aging and resistance exercise on determinants of muscle strength

被引：9

作者：

Lambert C.P. ^{[1
]}

Evans W.J. ^{[1
]}

机构：

[1] Nutrition Laboratory, Donald W. Reynolds Dept. of Geriat., Univ. of Arkansas for Med. Sciences, Little Rock

来源：

Journal of the American Aging Association | 2002年 / 25卷 / 2期

基金：

美国国家卫生研究院;

关键词：

Muscle Strength; Muscle Mass; Exercise Training; Resistance Training; Resistance Exercise;

D O I：

10.1007/s11357-002-0005-0

中图分类号：

学科分类号：

摘要：

Although the loss of muscle strength with aging is multifactorial, the primary factor is the loss of muscle mass. A preferential loss of Type II (fast-twitch) muscle fibers which produce more force than Type I fibers is also observed. The loss of muscle mass may be related to a reduction in the rate of muscle protein synthesis in the old versus the young. Changes in muscle quality and the ability to activate muscle appear to play a minor role in the loss of strength with age. However, co-activation of antagonist muscle groups does appear to reduce muscle force generating capacity in the elderly. Strength gains in response to resistance exercise training in the elderly, although substantial, may be less than in young individuals. Increases in muscle mass appear to be similar in elderly and young individuals as does the muscle protein synthetic response to resistance exercise. Muscle co-activation appears to be substantially and similarly reduced (improved) in young and elderly individuals as a result of resistance training.

引用

页码：73 / 78

页数：5

共 64 条

[31] Balagopal P., Rooyackers O.E., Adey D.B., Ades P.A., Nair K.S., Effects of in vivo synthesis of skeletal muscle myosin heavy-chain and sarcoplasmic protein in humans, American Journal of Physiology, 273, (1997)
[32] Volpi E., Mittendorfer B., Rasmussen B.B., Wolfe R.R., The response of muscle protein anabolism to combined hyperaminoacidemia and glucose-induced hyperinsulinemia is impaired in the elderly, Journal of Clinical Endocrinology and Metabolism, 85, pp. 4481-4490, (2000)
[33] Campbell W.W., Crim M.C., Young V.R., Joseph L.J., Evans W.J., Effects of resistance training and dietary protein intake on protein metabolism in older adults, Am J Physiol, 268, (1995)
[34] Meredith C.N., Frontera W.R., Evans W.J., Dietary protein requirements and body protein metabolism in endurance-trained men, J Appl Physiol, 66, pp. 2850-2856, (1989)
[35] Strawford A.B.T., Van Loan M., Parks E., Catlin D., Barton N., Neese R., Christiansen M., King J., Hellerstein M.K., Resistance exercise and supraphysiologic androgen therapy in eugonadal men with HIV-related weight loss: A randomized controlled trial, JAMA, 281, pp. 1282-1290, (1999)
[36] Krivickas L.S., Suh D., Wilkins J., Hughes V.A., Roubenoff R., Frontera W.R., Age- and gender -related differences in maximum shortening velocity of skeletal muscle fibers, American Journal of Physical Medicine and Rehabilitation, 80, pp. 447-455, (2001)
[37] Connelly D.M., Rice C.L., Roos M.R., Vandervoort A.A., Motor unit firing rates and contractile properties in tibialis anterior of young and old men, Journal of Applied Physiology, 87, pp. 843-852, (1999)
[38] Kent-Braun J.A., Ng A.V., Specific strength and voluntary muscle activation in young and elderly women and men, Journal of Applied Physiology, 87, pp. 22-29, (1999)
[39] Roos M.R., Rice C.L., Connelly D.M., Vandervoort A.A., Quadriceps muscle strength, contractile properties, and motor unit firing rates in young and old men, Muscle & Nerve, 22, pp. 1094-1103, (1999)
[40] Phillips S.K., Bruce S.A., Newton D., Woledge R.C., The weakness of old age is not due to failure of muscle activation, Journal of Gerontology: Medical Sciences, 47, (1992)

← 1 2 3 4 5 6 7 →