Ball Geoff D C, Huang Terry T K, Cruz Martha L, Shaibi Gabriel Q, Weigensberg Marc J, Goran Michael I
University of Alberta, Edmonton, AB, Canada.
Int J Pediatr Obes. 2006;1(4):210-6. doi: 10.1080/17477160600913578.
Cross-sectional.
196 overweight 8-13-year-old Latino youth. Two-thirds (n = 131) were randomly assigned to a development group to generate prediction equations for VAT and SAAT; one-third (n = 65) was used as a cross-validation group.
Anthropometric measurements (height, weight, skinfold thicknesses, and circumferences) were performed. VAT and SAAT were measured using magnetic resonance imaging (MRI).
The strongest univariate correlate for VAT was waist circumference (WC) (r = 0.65, p < 0.01) while the strongest correlate for SAAT was hip circumference (r = 0.88, p < 0.001). Regression analyses showed approximately 50% of the variance in VAT was explained by WC (43.8%), Tanner stage (4.2%) and calf skinfold (1.7%). Variance in the SAAT model was explained by WC (77.8%), triceps skinfold (4.2%) and gender (2.3%). Residual analyses showed no bias in either equation. Though mean differences between measured and predicted VAT and SAAT were small, there was a large degree of variability at the individual level especially for VAT.
Both VAT and SAAT prediction equations performed well at the group level, but the relatively high degree of variability suggests limited clinical utility of the VAT equation. MRI is currently required to derive an accurate measure of VAT at the individual level.
1)研究内脏脂肪组织(VAT)、腹部皮下脂肪组织(SAAT)与人体测量学及人口统计学变量之间的关联;2)生成并交叉验证超重拉丁裔儿童VAT和SAAT的预测方程。
横断面研究。
196名8至13岁超重拉丁裔青少年。三分之二(n = 131)被随机分配到开发组以生成VAT和SAAT的预测方程;三分之一(n = 65)用作交叉验证组。
进行人体测量(身高、体重、皮褶厚度和周长)。使用磁共振成像(MRI)测量VAT和SAAT。
VAT最强的单变量相关性为腰围(WC)(r = 0.65,p < 0.01),而SAAT最强的相关性为臀围(r = 0.88,p < 0.001)。回归分析显示,WC(43.8%)、坦纳分期(4.2%)和小腿皮褶(1.7%)解释了VAT约50%的方差。SAAT模型的方差由WC(77.8%)、肱三头肌皮褶(4.2%)和性别(2.3%)解释。残差分析显示两个方程均无偏差。尽管测量值与预测值之间的VAT和SAAT平均差异较小,但个体水平存在较大程度的变异性,尤其是VAT。
VAT和SAAT预测方程在组水平上表现良好,但相对较高的变异性表明VAT方程的临床实用性有限。目前在个体水平上需要MRI来准确测量VAT。
