[1] 夏志伟,孟丽苹,张坚.多不饱和脂肪酸在少肌症中作用机制的研究进展[J].中国慢性病预防与控制, 2015, 28(7):556-558.
[2] 林华,魏海燕,韩祖斌.增龄与骨骼肌退变[J]. 中华骨科杂志, 2001,21(1): 53-55.
[3] Murton AJ.Muscle protein turnover in the elderly and its potential contribution to the development of sarcopenia. Proc Nutr Soc.2015;74(4): 387-396.
[4] 王晓君.值得警惕的少肌症[J].健身科学, 2014(9): 45-45.
[5] 肖桂.预防少肌症为健康老龄化助力[J].食品与生活, 2014, (8): 55-55.
[6] Park S, Ham JO, Lee BK.A positive association between stroke risk and sarcopenia in men aged >/= 50 years, but not women: results from the Korean National Health and Nutrition Examination Survey 2008-2010.J Nutr Health Aging.2014;18(9): 806-812.
[7] Yakabe M, Ogawa S,Akishita M.Clinical Manifestations and Pathophysiology of Sarcopenia. RNA and Transcription.2015;1(2): 10-17.
[8] Benedict C,Brede S,Schioth HB,et al.Intranasal insulin enhances postprandial thermogenesis and lowers postprandial serum insulin levels in healthy men. Diabetes.2011;60(1): 114-118.
[9] Javadov S,Jang S,Rodriguez-Reyes,N,et al. Mitochondria-targeted antioxidant preserves contractile properties and mitochondrial function of skeletal muscle in aged rats. Oncotarget. 2015; 6(37): 39469–39481.
[10] Leduc-Gaudet JP, Picard M,St-Jean Pelletier,F, et al. Mitochondrial morphology is altered in atrophied skeletal muscle of aged mice. Oncotarget.2015,6(20): 17923-17937.
[11] Das S,Morvan F,Jourde B, et al.ATP citrate lyase improves mitochondrial function in skeletal muscle. Cell Metab.2015;21(6): 868-876.
[12] Cheema N, Herbst A,McKenzie D,et al.Apoptosis and necrosis mediate skeletal muscle fiber loss in age-induced mitochondrial enzymatic abnormalities. Aging Cell. 2015,10(6): 156-161.
[13] Beltran Valls MR,Wilkinson DJ, Narici MV, et al. Protein carbonylation and heat shock proteins in human skeletal muscle: relationships to age and sarcopenia. J Gerontol A Biol Sci Med Sci.2015;70(2): 174-181.
[14] 李梅.肌肉萎缩与氧化应激[J]. 中国生物化学与分子生物学报,2009,32(2): 2-7.
[15] 许家林,段立公,李国平.肌卫星细胞概述[J].中国运动医学杂志,2004,23(2): 212-215.
[16] Alway SE,Myers MJ,Mohamed JS.Regulation of satellite cell function in sarcopenia.Front Aging Neurosci. 2014;6(2):46-51.
[17] Barns M,Gondro C,Tellam RL,et al.Molecular analyses provide insight into mechanisms underlying sarcopenia and myofibre denervation in old skeletal muscles of mice.Int J Biochem Cell Biol.2014;53(12)174-185.
[18] Yanai H.Nutrition for Sarcopenia.J Clin Med Res. 2015; 7(12): 926-931.
[19] Wilkes EA,Selby AL, Atherton PJ,et al.Blunting of insulin inhibition of proteolysis in legs of older subjects may contribute to age-related sarcopenia. Am J Clin Nutr.2009;90(5): 1343-1350.
[20] Akpinar TS,Tayfur M,Tufan F,et al.Uncomplicated diabetes does not accelerate age-related sarcopenia. Aging Male.2014;17(4): 205-210.
[21] 邢国刚.失用性肌肉萎缩的研究[J].国外医学;物理医学与康复学分册, 2000,12(15): 5-9.
[22] 张菊香.TGF-β/myostatin 信号通路在失重性肌肉萎缩中的作用及其机制[J].陕西师范大学, 2011,10(17): 63-65.
[23] 李曌嫱.电针足三里对失用性肌肉萎缩大鼠 Na-K ATP 酶活性的影响[J].内蒙古中医药,2015,34(1): 113-114.
[24] 王今越.运动训练抑制了TGFβ通路并缓解了D-半乳糖诱导衰老大鼠的肌肉流失[J].体育科学,2014,34(10): 72-77.
[25] 王今越.IRS1, Akt, FOXO1 在少肌症发生及其运动性缓解中的作用[J].成都体育学院学报,2012,38(7): 86-91.
[26] 王今越,王小虹.p38, NF-κB, IL-6 在少肌症发生及其运动性缓解中的作用[J]. 山东体育学院学报,2012,28(4): 51-56.
[27] Rondanelli M,Perna S,Faliva MA,et al.Novel Insights on Intake of Meat and Prevention of Sarcopenia: All Reasons for an Adequate Consumption.Nutr Hosp. 2015;32(5): 2136-2143.
[28] 陈敏.有氧健身运动对中老年人身体部分功能指标的影响[J].甘肃科技, 2008,23(10): 218-219.
[29] 程秀军.老年人下肢骨折卧床期间的康复护理[J].大家健康,2015,16(2): 73-77.
[30] 薄海. 运动促衰老骨骼肌卫星细胞成肌分化的线粒体重构机制研究[J].中国人民解放军军事医学科学院, 2012, 7(5): 68-72.
[31] 段亚. LARGE蛋白可以克服某些类型的肌肉萎缩[J].生命科学仪器,2004,(15): 1-6. |