EXERCISE-INDUCED HORMONAL CHANGES AND THEIR EFFECTS UPON SKELETAL-MUSCLE TISSUE

被引：36

作者：

DESCHENES, MR

KRAEMER, WJ

MARESH, CM

CRIVELLO, JF

机构：

[1] Department of Physiology and Neurobiology, The University of Connecticut, Storrs, Connecticut

[2] Center for Sports Medicine, Pennsylvania State University, University Park, Pennsylvania

[3] Department of Sport, Leisure, and Exercise Sciences, University of Connecticut, Storrs, Connecticut

来源：

SPORTS MEDICINE | 1991年 / 12卷 / 02期

关键词：

D O I：

10.2165/00007256-199112020-00002

中图分类号：

G8 [体育];

学科分类号：

04 ; 0403 ;

摘要：

The neuroendocrine system plays an integral function in the development and maintenance of muscle tissue. Numerous investigations have confirmed the effects of both aerobic exercise and heavy resistance exercise upon the neuroendocrine system. Although there has been great progress in the area of exercise and neuroendocrinology, many questions regarding hormonal responses to exercise remain unanswered. In particular, there is a need for additional research that will reveal the specific mechanisms by which different exercise protocols induce hormonal responses. © 1991, Adis International Limited. All rights reserved.

引用

页码：80 / 93

页数：14

共 83 条

[1] Abe H., Molitch M., VanWych J., Underwood L., Human growth hormone and somatomedin C suppresses the spontaneous release of growth hormone in anesthetized rats, Endocrinology, 113, pp. 1319-1324, (1983)
[2] Ada H., Nissley S., Kasuga M., Foley T., Rechler M., Receptors for insulin-like growth factors and growth effects of multiplication-stimulating activity (rat insulin-like growth factor II) in rat embryo fibroblasts, Endocrinology, 112, pp. 971-978, (1983)
[3] Aldercreutz H., Harkonen K., Kuoppasalmi H., Naveri I., Huhtaniemi H., Et al., Effect of training on plasma anabolic and catabolic steroid hormones and their response during physical exercise, International Journal of Sports Medicine, 7, pp. 27-28, (1986)
[4] Aono T., Kurachi K., Mivata M., Nakashima A., Koshiyoma K., Et al., Influence of surgical stress under general anaesthesia on serum gonadotrophin levels in male and female patients, Journal of Clinical Endocrinology and Metabolism, 42, pp. 144-148, (1976)
[5] Beguinot F., Kahn C., Moses A., Smith R., Distinct biologically active receptors for insulin, insulin-like growth factor-I and insulin-like growth factor-II cultured skeletal muscle cells, Journal of Biological Chemistry, 260, pp. 15892-15898, (1985)
[6] Beguinot F., Kahn C., Moses A., Smith R., The development of insulin receptors and responsiveness is an early marker of differentiation in the muscle cell line L6, Endocrinology, 118, pp. 447-455, (1986)
[7] Bloom S., Johnson R., Park D., Rennie M., Sulaiman W., Differences in the metabolic and hormonal response to exercise between racing cyclists and untrained individuals, Journal of Physiology, 258, pp. 1-18, (1976)
[8] Borer K., Characteristics of growth inducing exercise, Physiology of Behavior, 24, pp. 713-720, (1980)
[9] Borer K., Kelch R., Increased serum growth hormone and somatic growth in exercising adult hamsters, American Journal of Physiology, 234, (1978)
[10] Borer K., Nicoski D., Owens V., Alteration of pulsatile growth hormone secretion by growth inducing exercise: involvement of endogenous opiates and somatostatin, Endocrinology, 118, pp. 844-850, (1986)

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