无论运动频率如何,同时进行训练均可增加老年人血清脑源性神经营养因子水平。
Concurrent Training Increases Serum Brain-Derived Neurotrophic Factor in Older Adults Regardless of the Exercise Frequency.
作者信息
Canton-Martínez Ermilo, Rentería Iván, García-Suárez Patricia C, Moncada-Jiménez José, Machado-Parra Juan Pablo, Lira Fabio Santos, Johnson David K, Jiménez-Maldonado Alberto
机构信息
Facultad de Deportes, Universidad Autónoma de Baja California, Ensenada, Mexico.
Department of Health, Sports and Exercise Sciences, University of Kansas, Lawrence, KS, United States.
出版信息
Front Aging Neurosci. 2022 Mar 7;14:791698. doi: 10.3389/fnagi.2022.791698. eCollection 2022.
BACKGROUND
Human brain function declines with aging. In this sense, exercise-based interventions has a promising effect on brain plasticity for older adults. Serum brain-derived neurotrophic factor (BDNF) is a positive biomarker for brain neuroplasticity in healthy older adults also modified by exercise training. Selected features of the exercise prescription for improving brain health are missing; therefore, the aim of this study was to determine the effects of concurrent exercise training frequency on serum BDNF levels in healthy older adults.
METHODS
Nineteen volunteers (age: 65 ± 4 year; body mass index: 28.0 ± 4.5 kg/m) completed either a three times/week (3-t/w) ( = 8) or five times/week (5-t/w) ( = 11) concurrent exercise program. The exercise program lasted 11 weeks and all exercise sessions were performed for 50 min at moderate intensity. Serum BDNF, body composition, cardiovascular, and physical fitness variables were assessed before and after the exercise training program.
RESULTS
Regardless of the group, the serum BDNF increased following the intervention ( < 0.001), and there were no significant group ( = 0.827) or interaction ( = 0.063) effects. The maximal oxygen consumption (VO2max) increased regardless of the group ( = 0.007), with a non-significant group ( = 0.722) or interaction ( = 0.223) effects. Upper- and lower-body strength increased in both groups ( = 0.003); however, there was no effect of the training frequency ( = 0.53). For the skeletal muscle mass, there was a trend in the interaction effect ( = 0.053). Finally, the body fat percentage was unchanged.
CONCLUSION
Eleven weeks of combined exercise training increased serum BDNF levels in healthy older adults, a response independent of the training frequency. The overall fitness level improved similarly in both exercise groups. These data reveal that a minimal dosage of concurrent exercise enhance functional capacity and a brain health biomarker in older adults.
背景
人类大脑功能会随着年龄增长而衰退。从这个意义上讲,基于运动的干预措施对老年人的大脑可塑性具有显著作用。血清脑源性神经营养因子(BDNF)是健康老年人脑神经可塑性的一个积极生物标志物,其水平也会因运动训练而改变。改善大脑健康的运动处方的某些关键特征尚不明确;因此,本研究的目的是确定同时进行的运动训练频率对健康老年人血清BDNF水平的影响。
方法
19名志愿者(年龄:65±4岁;体重指数:28.0±4.5kg/m²)完成了每周三次(3次/周)(n = 8)或每周五次(5次/周)(n = 11)的同时进行的运动计划。运动计划持续11周,所有运动课程均以中等强度进行50分钟。在运动训练计划前后评估血清BDNF、身体成分、心血管和体能变量。
结果
无论组别如何,干预后血清BDNF均升高(P < 0.001),且无显著的组别效应(P = 0.827)或交互效应(P = 0.063)。无论组别如何,最大摄氧量(VO2max)均升高(P = 0.007),有非显著的组别效应(P = 0.722)或交互效应(P = 0.223)。两组的上、下肢力量均增加(P = 0.003);然而,训练频率无影响(P = 0.53)。对于骨骼肌质量,存在交互效应趋势(P = 0.053)。最后,身体脂肪百分比未改变。
结论
11周的联合运动训练可提高健康老年人的血清BDNF水平,这一反应与训练频率无关。两个运动组的整体健康水平均有类似改善。这些数据表明,最低剂量的同时进行的运动可增强老年人的功能能力和一种大脑健康生物标志物。
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