生物阻抗法评估身体成分：运动员儿童与非运动员儿童的比较

Evaluation of body composition with bioimpedence. A comparison between athletic and non-athletic children.

作者信息

Meleleo Domenico, Bartolomeo Nicola, Cassano Liliana, Nitti Alessandro, Susca Giovanna, Mastrototaro Giuseppina, Armenise Umberto, Zito Annapaola, Devito Fiorella, Scicchitano Pietro, Ciccone Marco Matteo

机构信息

a Italian Society of Sports Nutrition and Wellness (SINSeB) , Empoli , Italy.

b Childhood Section of SINSeB at Dott. Domenico Meleleo , Canosa di Puglia (BT) , Italy.

出版信息

Eur J Sport Sci. 2017 Jul;17(6):710-719. doi: 10.1080/17461391.2017.1291750. Epub 2017 Mar 20.

DOI:10.1080/17461391.2017.1291750

PMID:28319679

Abstract

PURPOSE

Conventional Bioelectrical Impedance Analysis (BIA) or Bioelectrical Impedance Vector Analysis (BIVA) can provide direct evaluations of body composition. The purpose of this study was to evaluate lean and fat mass (FM), and hydration of children involved in daily competitive sports.

METHODS

190 non-athletic [8.2-10.5 years] and 29 competitive children [8.0-10.5 years] were enrolled. They were evaluated: at baseline (t0), 6 months (t1) and one year (t2). Anthropometric, BIA and BIVA, lean and FM, and hydration evaluations were performed.

RESULTS

Resistance (R/h) and reactance (Xc/h) were lower at t0 in competitive individuals when compared to controls. Xc/h (+3.28) significantly increases in competitive when compared to non-competitive individuals (+0.66, p for difference: 0.011), while phase angle (PA) was lower at t0 (5.72 vs. 6.17, p < .001) and after 6 months (p = .001). Total body water adjusted for height (TBW/h) significantly increased only in non-athletes (+0.50 ± 0.13, p < .001) between t0 and t1. At t1, extracellular water (ECW) significantly decreased (p = .026) in the two groups: -0.45 ± 0.19% in non-competitive, -1.63 ± 0.49% in competitive subjects, while intracellular water (ICW) increased. At one-year follow-up (t2), there were no statistically significant differences in R/h, Xc/h and PA in competitive individuals when compared to baseline and t1. Furthermore, we observed at t2 that hours/week of training, age, male gender and body mass index can influence FFM/h and FM/h in both competitive and non-competitive subjects. In particular, a direct correlation was for hours/week and FFM/h, inverse for hours/week and FM/h.

CONCLUSIONS

Body mass index does not allow evaluating differences in lean body mass and FM between athletes and non-athletes. BIA and BIVA can give more reliable details about body composition differences in competitive adolescents and non-competitive, outlining a progressive decline in ECW and increase in ICW without affecting TBW composition of athletes.

摘要

目的

传统生物电阻抗分析（BIA）或生物电阻抗矢量分析（BIVA）可直接评估身体成分。本研究旨在评估参与日常竞技运动的儿童的瘦体重和脂肪量（FM）以及水合状态。

方法

招募了190名非运动员儿童[8.2 - 10.5岁]和29名竞技儿童[8.0 - 10.5岁]。在基线（t0）、6个月（t1）和1年（t2）时对他们进行评估。进行人体测量、BIA和BIVA、瘦体重和FM以及水合状态评估。

结果

与对照组相比，竞技个体在t0时的电阻（R/h）和电抗（Xc/h）较低。与非竞技个体相比，竞技个体的Xc/h（增加3.28）显著增加（非竞技个体增加0.66，差异p值：0.011），而在t0时相角（PA）较低（5.72对6.17，p < 0.001），6个月后也是如此（p = 0.001）。仅非运动员组在t0和t1之间，按身高调整的全身水（TBW/h）显著增加（+0.50 ± 0.13，p < 0.001）。在t1时，两组的细胞外液（ECW）均显著减少（p = 0.026）：非竞技组为-0.45 ± 0.19%，竞技组为-1.63 ± 0.49%，而细胞内液（ICW）增加。在一年随访（t2）时，与基线和t1相比，竞技个体的R/h、Xc/h和PA无统计学显著差异。此外，我们在t2观察到，训练小时数/周、年龄、男性性别和体重指数可影响竞技和非竞技受试者的去脂体重/身高（FFM/h）和脂肪量/身高（FM/h）。特别是，训练小时数/周与FFM/h呈正相关，与FM/h呈负相关。

结论

体重指数无法评估运动员和非运动员之间瘦体重和FM的差异。BIA和BIVA可提供关于竞技青少年和非竞技青少年身体成分差异的更可靠细节，表明ECW逐渐下降，ICW增加，而不影响运动员的TBW组成。

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生物阻抗法评估身体成分：运动员儿童与非运动员儿童的比较

Evaluation of body composition with bioimpedence. A comparison between athletic and non-athletic children.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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