两周停训对训练老年人相位角、生物电阻抗分析(BIVA)模式和肌肉力量的影响。
The impact of 2 weeks of detraining on phase angle, BIVA patterns, and muscle strength in trained older adults.
机构信息
Exercise and Health Laboratory, Interdisciplinary Center for the Study of Human Performance, Faculdade de Motricidade Humana, Universidade de Lisboa, Cruz-Quebrada, Portugal.
Exercise and Health Laboratory, Interdisciplinary Center for the Study of Human Performance, Faculdade de Motricidade Humana, Universidade de Lisboa, Cruz-Quebrada, Portugal; Faculty of Physical Education and Sport, Lusofona University, Lisbon 1749-024, Portugal.
出版信息
Exp Gerontol. 2021 Feb;144:111175. doi: 10.1016/j.exger.2020.111175. Epub 2020 Dec 3.
BACKGROUND
An intermission in the training routine, in which older adults refrain from regular structured exercise, may have deleterious effects on muscle performance and bioelectric phase angle (PhA), which is a predictive marker for cellular integrity.
PURPOSE
To determine the effects of a 2-week detraining period on PhA and muscular strength (MS) in trained older adults.
METHODS
A total of 14 trained older adults (6 females) aged ≥65 years (77.2 ± 6.6) were assessed at baseline (i.e. trained condition) and after 2 weeks of detraining, where they refrained from their usual participation in structured exercise sessions. Whole-body resistance (R), reactance (Xc), and PhA were assessed using bioelectrical impedance analysis (BIA, single frequency, 50 kHz ± 1%, NutriLab, Akern). MS was assessed on both lower and upper limbs under isometric conditions. Differences between moments were examined using ANOVA for repeated measures, while adjusting for sex. Bioimpedance vector analysis (BIVA) was performed to evaluate changes in cellular function and body fluid content.
RESULTS
Detraining resulted in declines in PhA (-4.34%) (p = 0.017). There was a significant difference in the mean impedance vectors from baseline to post-detraining (p < 0.05), which were driven by decreases in reactance (Xc) relative to height (Xc/H) with little change in resistance (R) relative to height (R/H) for both males and females. No differences were found in MS for both the leg press (p = 0.992) and bench press (p = 0.166) tests.
CONCLUSION
A detraining period as short as 2-weeks is enough to cause alterations in the bodies bioelectrical properties, resulting in detrimental changes in PhA, due to alterations in cellular integrity, but not in MS. These results highlight the importance of maintaining structured exercise sessions in older adults, and reinforce the potential role of PhA as a sensitive predictor to detect acute changes in muscle cell integrity following alterations in exercise training.
背景
在训练过程中中断,即老年人停止定期进行有规律的结构性运动,可能对肌肉性能和生物电相角(PhA)产生有害影响,PhA 是细胞完整性的预测指标。
目的
确定为期 2 周的停训期对训练有素的老年人的 PhA 和肌肉力量(MS)的影响。
方法
共有 14 名年龄在 65 岁以上(77.2 ± 6.6)的训练有素的老年人参与了本研究,他们在基线时(即训练条件)和停训 2 周后接受了评估,在此期间他们停止了常规的结构化运动。全身电阻(R)、电抗(Xc)和 PhA 采用生物电阻抗分析(BIA,单频,50 kHz ± 1%,NutriLab,Akern)进行评估。在等长条件下评估上下肢的 MS。使用重复测量方差分析(ANOVA)检查各时刻之间的差异,同时根据性别进行调整。生物阻抗向量分析(BIVA)用于评估细胞功能和体液含量的变化。
结果
停训导致 PhA 下降(-4.34%)(p = 0.017)。从基线到停训后的平均阻抗向量有显著差异(p < 0.05),这主要是由于男性和女性的电抗(Xc)相对于身高(Xc/H)的降低,而电阻(R)相对于身高(R/H)的变化很小。腿部按压(p = 0.992)和卧推(p = 0.166)测试的 MS 均无差异。
结论
停训期短至 2 周足以导致身体生物电特性的改变,从而导致 PhA 的有害变化,这是由于细胞完整性的改变所致,但不会影响 MS。这些结果强调了在老年人中维持结构化运动的重要性,并强调了 PhA 作为检测肌肉细胞完整性在运动训练改变后急性变化的敏感预测指标的潜在作用。
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