体脂百分比和大腿人体测量学对冷水浸泡时组织冷却的预测能力。
Predictive Ability of Body Fat Percentage and Thigh Anthropometrics on Tissue Cooling During Cold-Water Immersion.
机构信息
Rech Physio, Grand Island, NE.
Utah State University, Logan.
出版信息
J Athl Train. 2021 Jun 1;56(6):548-554. doi: 10.4085/40-20.
CONTEXT
Cold-water immersion (CWI) is a common aid in exercise recovery. The effectiveness of CWI depends on the magnitude of muscle and core cooling. Individual cooling responses to CWI vary and are likely influenced by the CWI dose and individual physiological characteristics.
OBJECTIVE
To evaluate body fat percentage and thigh anthropometric values as predictors of intramuscular and skin-cooling responses to CWI.
DESIGN
Descriptive laboratory study.
SETTING
Sports medicine research center.
PATIENTS OR OTHER PARTICIPANTS
Sixteen young adults (8 males, 8 females, age = 24.3 ± 1.84 years, height = 176.4 ± 12.7 cm, mass = 86.6 ± 29.4 kg).
INTERVENTION(S): Body fat percentage was measured using a 3-site skinfold assessment. Thigh length, thigh circumference, anterior thigh adipose thickness, anterior thigh muscle thickness, and thigh volume were estimated using manual and ultrasound methods. Using sterile techniques, we placed thermocouple probes in the belly of the rectus femoris (2-cm deep to the subadipose tissue) and on the anterior midthigh surface. Participants cycled on an ergometer for 30 minutes at a target heart rate of 130 to 150 beats/min. Postexercise, participants were placed in CWI (immersion depth to the iliac crest; 10°C) until intramuscular temperature was 7°C below pre-exercise baseline temperature, with a maximum immersion duration of 30 minutes.
MAIN OUTCOME MEASURE(S): Intramuscular rectus femoris and thigh skin temperatures measured postexercise, after 10 and 15 minutes of CWI, and post-CWI.
RESULTS
Body fat percentage significantly predicted the rectus femoris cooling magnitude and rate after 10 minutes of CWI, 15 minutes of CWI, and post-CWI (P < .001; R2 range = 0.58-0.67). Thigh anthropometric values significantly predicted the thigh skin-cooling rate post-CWI (P = .049; R2 = 0.46).
CONCLUSIONS
A simple 3-site skinfold assessment may improve the effective prescription of CWI by allowing estimation of the dose required for minimal muscle tissue cooling.
背景
冷水浸泡(CWI)是运动恢复的常见辅助手段。CWI 的效果取决于肌肉和核心冷却的程度。个体对 CWI 的冷却反应不同,可能受到 CWI 剂量和个体生理特征的影响。
目的
评估体脂百分比和大腿人体测量值作为预测 CWI 后肌肉内和皮肤冷却反应的指标。
设计
描述性实验室研究。
设置
运动医学研究中心。
患者或其他参与者
16 名年轻成年人(8 名男性,8 名女性;年龄=24.3±1.84 岁;身高=176.4±12.7cm;体重=86.6±29.4kg)。
干预措施
使用 3 点皮褶评估测量体脂百分比。使用手动和超声方法估计大腿长度、大腿周长、股前脂肪厚度、股前肌肉厚度和大腿体积。使用无菌技术,我们将热电偶探头放置在股直肌的腹部(皮下组织深 2cm)和前大腿表面。参与者在测功计上以目标心率 130-150 次/分钟运动 30 分钟。运动后,参与者将被放入 CWI(浸没深度至髂嵴;10°C),直到肌肉内温度比运动前基础温度低 7°C,最大浸泡时间为 30 分钟。
主要观察指标
运动后、CWI 后 10 分钟和 15 分钟以及 CWI 后测量的股直肌内和大腿皮肤温度。
结果
体脂百分比显著预测了 CWI 后 10 分钟、15 分钟和 CWI 后股直肌的冷却幅度和速率(P<0.001;R2 范围为 0.58-0.67)。大腿人体测量值显著预测了 CWI 后大腿皮肤的冷却速率(P=0.049;R2=0.46)。
结论
简单的 3 点皮褶评估可以通过估计最小肌肉组织冷却所需的剂量来提高 CWI 的有效处方。
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