[1] KWON YN, YOON SS, LEE K. Sarcopenic obesity in elderly korean women: a nationwide cross-sectional study. J Bone Metab. 2018;25(1): 53-58.
[2] ROSENBERG IH. Sarcopenia: origins and clinical relevance. J Nutr. 1997; 127(5 Suppl):990S-991S.
[3] CRUZ JENTOFT AJ, BAHAT G, BAUER J, et al. Sarcopenia: revised European consensus on definition and diagnosis. Age and Ageing. 2019;48(1):16-31.
[4] MARTONE AM, BIANCHI L, ABETE P, et al. The incidence of sarcopenia among hospitalized older patients: results from the Glisten study. J Cachexia Sarcopenia Muscle. 2017;8(6):907-914.
[5] ISABEL L, ANDREA C, IOSIEF A, et al. Nonpharmacological interventions to treat physical frailty and sarcopenia in older patients: a systematic overview-the SENATOR Project ONTOP Series. Clin Interv Aging. 2017; 12:721-740.
[6] LARA V, WENDY H, DEBRA LW. Exercise interventions in healthy older adults with sarcopenia: a systematic review and meta‐analysis. Australas J Ageing. 2018;37(3):169-183.
[7] 王岑依,梁计陵,司誉豪,等.运动通过调控线粒体质量控制改善肌少症的研究进展[J].中国康复理论与实践,2020,26(9):1066-1070.
[8] BAO W, SUN Y, ZHANG T, et al. Exercise programs for muscle mass, muscle strength and physical performance in older adults with sarcopenia: a systematic review and meta-analysis. Aging Dis. 2020; 11(4):863-873.
[9] 王坤,罗炯,刘立,等.老年人肌少症的成因、评估及应对[J].中国组织工程研究,2019,23(11):1767-1773.
[10] YOO S, NO M, HEO J, et al. Role of exercise in age-related sarcopenia. J Exerc Rehabil. 2018;14(4):551-558.
[11] BARAJAS-GALINDO DE, GONZÁLEZ AE, FERRERO VP, et al. Effects of physical exercise in sarcopenia. A systematic review. End Diabetes Y Nutr. 2020;68(3):159-169.
[12] 李杰,陈超美.CiteSpace:科技文本挖掘及可视化[M].北京:首都经济贸易大学出版社,2017.
[13] LIAO C, TSAUO J, HUANG S, et al. Effects of elastic band exercise on lean mass and physical capacity in older women with sarcopenic obesity: a randomized controlled trial. Sci Rep. 2018;8(1):2317.
[14] TAKENAMI E, IWAMOTO S, SHIRAISHI N, et al. Effects of low-intensity resistance training on muscular function and glycemic control in older adults with type 2 diabetes. J Diabetes Investig. 2019;10(2):331-338.
[15] CHANG C, WU JS, MHUIRCHEARTAIGH JN, et al. Effect of sarcopenia on clinical and surgical outcome in elderly patients with proximal femur fractures. Skeletal Radiol. 2018;47(6):771-777.
[16] JIA D, CAI M, XI Y, et al. Interval exercise training increases LIF expression and prevents myocardial infarction-induced skeletal muscle atrophy in rats. Life Sci 2018;193:77-86.
[17] TAYA M, AMIYA E, HATANO M, et al. High-intensity aerobic interval training can lead to improvement in skeletal muscle power among in-hospital patients with advanced heart failure. Heart Vessels. 2018; 33(7):752-759.
[18] MIGUEL SC, CARLOS U. Exercise with blood flow restriction: an effective alternative for the non‐pharmaceutical treatment for muscle wasting. J Cachexia Sarcopenia Muscle. 2019;10(2):257-262.
[19] VECHIN FC, LIBARDI CA, CONCEIÇÃO MS, et al. Comparisons between low-intensity resistance training with blood flow restriction and high-intensity resistance training on quadriceps muscle mass and strength in elderly. J Strength Cond Res. 2015;29(4):1071-1076.
[20] BRANDNER CR, WARMINGTON SA. Delayed onset muscle soreness and perceived exertion after blood flow restriction exercise. J Strength Cond Res. 2017;31(11):3101-3108.
[21] BEKTAS A, SCHURMAN SH, SEN R, et al. Aging, inflammation and the environment. Exp Gerontol. 2018;105:10-18.
[22] 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;14(6):1085-1093.
[23] ALLEN H, JONATHAN W, NASHWA C, et al. Latent mitochondrial DNA deletion mutations drive muscle fiber loss at old age. Aging Cell. 2016; 15(6):1132-1139.
[24] VERLAAN S, ASPRAY TJ, BAUER JM, et al. Nutritional status, body composition, and quality of life in community-dwelling sarcopenic and non-sarcopenic older adults: a case-control study. Clin Nutr. 2017;36(1): 267-274.
[25] Le Couteur David G, Solon-Biet Samantha M, Cogger Victoria C, et al. Branched chain amino acids, aging and age-related health. Ageing Res Rev. 2020;64:101198.
[26] Tieland M, Dirks ML, van der Zwaluw N, et al. Protein supplementation increases muscle mass gain during prolonged resistance-type exercise training in frail elderly people: a randomized, double-blind, placebo-controlled trial. J Am Med Dir Assoc. 2012;3(8): 713-719.
[27] Deutz NEP, Bauer JM, Barazzoni R, et al. Protein intake and exercise for optimal muscle function with aging: recommendations from the ESPEN Expert Group. Clinical Nutr. 2014;33(6):929-936.
[28] DAVID WR, IVA MB, KATHERINE MM, et al. Muscle-specificity of age-related changes in markers of autophagy and sphingolipid metabolism. Biogerontology. 2015;16(6):747-759.
[29] CRUZ-JENTOFT AJ, LANDI F, SCHNEIDER SM, et al. Prevalence of and interventions for sarcopenia in ageing adults: a systematic review. Report of the International Sarcopenia Initiative (EWGSOP and IWGS). Age Ageing. 2014;43(6):748-759.
[30] ZIAALDINI MM, MARZETTI E, PICCA A, et al. Biochemical pathways of sarcopenia and their modulation by physical exercise: a narrative review. Front Med. 2017. doi: 10.3389/FMED.2017.00167.
[31] VITOR AL, MITSUHARU O, MEI Z, et al. Autophagy is required for exercise training‐induced skeletal muscle adaptation and improvement of physical performance. FASEB J. 2013;27(10):4184-4193.
[32] MØLLER AB, VENDELBO MH, CHRISTENSEN B, et al. Physical exercise increases autophagic signaling through ULK1 in human skeletal muscle. J Appl Physiol (1985). 2015;118(8):971-979.
[33] PING L, QIUKUI H, SHAN H, et al. Sarcopenia as a predictor of all-cause mortality among community-dwelling older people: a systematic review and meta-analysis. Maturitas. 2017;103:16-22.
[34] CAO L, MORLEY JE. Sarcopenia Is Recognized as an Independent Condition by an International Classification of Disease, Tenth Revision, Clinical Modification (ICD-10-CM) Code. J Am Med Dir Assoc. 2016; 17(8):675-677.
[35] Morley JE. Frailty and sarcopenia in elderly. Wien Klin Wochenschr. 2016;128(Suppl 7):439-445.
[36] YU R, LEUNG J, WOO J. Incremental predictive value of sarcopenia for incident fracture in an elderly Chinese cohort: results from the Osteoporotic Fractures in Men (MrOs) Study. J Am Med Dir Assoc. 2014;15(8):551-558.
[37] CHENG Q, ZHU X, ZHANG X, et al. A cross-sectional study of loss of muscle mass corresponding to sarcopenia in healthy Chinese men and women: reference values, prevalence, and association with bone mass. J Bone Miner Metab. 2014;32(1):78-88.
[38] STEFFL M, BOHANNON R W, SONTAKOVA L, et al. Relationship between sarcopenia and physical activity in older people: a systematic review and meta-analysis. Clin Interv Aging. 2017;12:835-845.
[39] DODDS R, SAYER AA. Sarcopenia and frailty: new challenges for clinical practice. Clin Med (London, England). 2016;16(5):455-458.
[40] CEDERHOLM T. Overlaps between frailty and sarcopenia definitions. Nestle Nutr Inst Workshop Ser. 2015;83:65-69.
[41] GENARO PDE S, PINHEIRO MDE M, SZEJNFELD VL, et al. Dietary protein intake in elderly women: association with muscle and bone mass. Nutr Clin Pract. 2015;30(2):283-289.
[42] 孙建琴,张坚,常翠青,等.肌肉衰减综合征营养与运动干预中国专家共识(节录)[J].营养学报,2015,37(4):320-324.
|