老年人肌肉对 12 周混合力量训练的适应差异,取决于其通常的蛋白质摄入量。
Differences in muscle adaptation to a 12-week mixed power training in elderly men, depending on usual protein intake.
机构信息
Département de Biologie, Faculté des Sciences, Université du Québec à Montréal, Montréal, QC, Canada; Centre de recherche de l'Institut universitaire de gériatrie de Montréal, Université de Montréal, Montréal, QC, Canada.
Département des sciences de l'activité physique, Faculté des Sciences, Université du Québec à Montréal, Montréal, QC, Canada; Centre de recherche de l'Institut universitaire de gériatrie de Montréal, Université de Montréal, Montréal, QC, Canada.
出版信息
Exp Gerontol. 2018 Apr;104:78-85. doi: 10.1016/j.exger.2018.02.001. Epub 2018 Feb 5.
INTRODUCTION
Normal aging is often associated with a decline of muscle mass (MM), strength (MS) and quality (MQ: MS/MM), leading to functional incapacities. This aging-related deterioration of muscles may involve a decreased protein intake. Mixed power training has been recently shown to induce positive effects on MM, MS and MQ. However, to our knowledge, no study has examined if muscle adaptations following mixed power training could be influenced by the daily amount of protein ingested in elderly men.
METHODS
Twenty-one men completed the intervention and were divided into 2 groups based on their usual protein intake: PROT 1.1- (<1.1 g·kg·d [n = 10; 73 ± 3 years]) and PROT 1.2+ (>1.2 g·kg·d [n = 11; 73 ± 3 years]). Body composition (DXA: lean and fat masses), MS (1-maximal repetition on leg-press and handgrip strength), MQ (MS/body mass and MS/lower limb lean mass), functional capacities (Short Physical Performance Battery/Senior Fitness Test), dietary intake (3-day food record) and energy expenditure (accelerometer; 7 days) were measured. Mixed power training intervention consisted in power and functional exercises (12 weeks; 3 times/week; 1 h/session).
RESULTS
Lower limb MS increase in the PROT 1.2+ group was greater from that of the PROT 1.1- group when normalized to lower limbs lean mass (p = 0.036). In addition, a trend for greater gain in lower limb MS normalized to body mass (p = 0.053) was observed in the PROT 1.2+.
CONCLUSION
To optimize mixed power training effects on muscle function, healthy older men should ingest daily at least 1.2 g·kg·d of protein. These beneficial effects of a higher usual protein intake were observed especially for MQ, which is one of the best predictors of functional capacities in older adults.
简介
正常衰老常伴随着肌肉量(MM)、力量(MS)和质量(MQ:MS/MM)的下降,导致功能障碍。这种与衰老相关的肌肉恶化可能涉及蛋白质摄入减少。混合力量训练最近已被证明对 MM、MS 和 MQ 有积极影响。然而,据我们所知,尚无研究探讨混合力量训练后肌肉适应是否会受到老年人每日蛋白质摄入量的影响。
方法
21 名男性完成了干预,并根据他们的日常蛋白质摄入量分为两组:PROT 1.1-(<1.1 g·kg·d [n=10;73±3 岁])和 PROT 1.2+(>1.2 g·kg·d [n=11;73±3 岁])。身体成分(DXA:瘦体重和脂肪量)、MS(腿部按压和握力的最大重复次数)、MQ(MS/体重和 MS/下肢瘦体重)、功能能力(简短身体表现测试/高级健身测试)、饮食摄入(3 天食物记录)和能量消耗(加速度计;7 天)均进行了测量。混合力量训练干预包括力量和功能性运动(12 周;每周 3 次;每次 1 小时)。
结果
PROT 1.2+组的下肢 MS 增加量在标准化为下肢瘦体重时大于 PROT 1.1-组(p=0.036)。此外,在 PROT 1.2+组中,下肢 MS 相对于体重的增加量也呈现出更大的趋势(p=0.053)。
结论
为了优化混合力量训练对肌肉功能的效果,健康的老年人应每天至少摄入 1.2 g·kg·d 的蛋白质。这种较高的日常蛋白质摄入量的有益效果尤其表现在 MQ 上,MQ 是预测老年人功能能力的最佳指标之一。
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