Tan Xiaohuan, Jiang Guiping, Zhang Lei, Wang Dandan, Wu Xueping
Shanghai University of Sport, Shanghai, China.
Harbin University, Harbin, China.
PeerJ. 2025 Apr 16;13:e19263. doi: 10.7717/peerj.19263. eCollection 2025.
As life expectancy rises, age-related decline in mobility and physical function poses challenges for older adults. While traditional exercise can help, limitations and injury risks persist. This study explores low-frequency vibration training as a potential alternative to improve walking ability and body composition in older adults.
A lottery was used to randomly assign 50 participants (mean age 80.08 years) to either a vibration group ( = 25, 10 males, 15 females) or a control group ( = 25, 11 males, 14 females). While the control group continued their regular daily schedule, the vibration group completed 8 weeks of low-frequency vibration training (frequency: 4-13 Hz; amplitude: two mm), three sessions per week, with each session lasting 20-30 minutes. The walk ability was assessed using the 30-second Chair Stand Test (30-s CST), Timed Up and Go (TUG), and six-meter (six m) walk speed, while body composition was measured via body mass index (BMI), body fat percentage, and waist circumference (WC), hip circumference (HC), and waist-to-hip ratio (WHR).
Low-frequency vibration training significantly increased walking speed in the six m walk speed ( = 4.50, = 0.04, = 0.11) and TUG ( = - 2.72, = 0.007), compared with the control group. Observed improvements on the 30-s CST were not statistically significant ( = 0.05, = 0.81, = 0.002). In the WC, the effect of time ( = 7.19, = 0.01, = 0.16) was significant. The main effect of the group for HC ( = 0.06, = 0.80, = 0.002) and WHR ( = 2.00, = 0.16, = 0.05) were not significant, but the interaction effects for HC ( = 6.37, = 0.01, = 0.15) and WHR ( = 9.08, = 0.005, = 0.20) were significant. However, the intervention showed no statistically significant effects on BMI and body fat percentage.
Low-frequency vibration training significantly enhanced walking speed and WHR in older adults. This low-intensity intervention is especially beneficial for those with exercise limitations or a high risk of injury. Although its effects on BMI and body fat percentage were limited, the study offers valuable insights for developing personalized vibration training programs.
随着预期寿命的延长,老年人与年龄相关的活动能力和身体功能下降带来了挑战。虽然传统运动有所帮助,但局限性和受伤风险依然存在。本研究探索低频振动训练作为一种潜在的替代方法,以改善老年人的步行能力和身体成分。
通过抽签将50名参与者(平均年龄80.08岁)随机分为振动组(n = 25,10名男性,15名女性)或对照组(n = 25,11名男性,14名女性)。对照组继续其正常的日常安排,振动组完成8周的低频振动训练(频率:4 - 13赫兹;振幅:2毫米),每周3次,每次训练持续20 - 30分钟。使用30秒椅子起立测试(30 - s CST)、定时起立行走测试(TUG)和6米步行速度评估步行能力,通过体重指数(BMI)、体脂百分比、腰围(WC)、臀围(HC)和腰臀比(WHR)测量身体成分。
与对照组相比,低频振动训练显著提高了6米步行速度(t = 4.50,p = 0.04,d = 0.11)和TUG(t = - 2.72,p = 0.007)。30 - s CST观察到的改善无统计学意义(t = 0.05,p = 0.81,d = 0.002)。在腰围方面,时间效应(F = 7.19,p = 0.01,η² = 0.16)显著。组间对于臀围(F = 0.06,p = 0.80,η² = 0.002)和腰臀比(F = 2.00,p = 0.16,η² = 0.05)的主效应不显著,但臀围(F = 6.37,p = 0.01,η² = 0.15)和腰臀比(F = 9.08,p = 0.005,η² = 0.20)的交互效应显著。然而,该干预对BMI和体脂百分比无统计学显著影响。
低频振动训练显著提高了老年人的步行速度和腰臀比。这种低强度干预对那些有运动限制或高受伤风险的人尤其有益。尽管其对BMI和体脂百分比的影响有限,但该研究为制定个性化振动训练计划提供了有价值的见解。