Gender differences in fat mass of 5–7-year old children (original) (raw)

OBJECTIVE: Studying gender differences in fat mass and distribution in a homogeneous group of children.

DESIGN: Crosssectional study.

SUBJECTS: 610 children aged 5–7 y in Kiel, Germany.

METHODS: Anthropometric measures, bioelectrical impedance analysis (BIA).

RESULTS: Although boys had increased body weights (P<0.05), body mass indexes (BMI’s) (P<0.001) and waist/hip ratios (WHRs) (P<0.001), the %fat mass as assessed by BIA (P<0.05) was increased in girls. Although the increased BMI in boys was independent of the percentile used, gender differences (that is, lower values for boys than for girls at the same age) in WHR, the sum of four skinfolds and %fat were seen up to the 90th percentile. By contrast, above the 90th percentile there were no differences in skinfold thickness and %fat between boys and girls. Studying 42 BMI-matched pairs (boys and girls) also showed that the %fat estimated by BIA (P<0.001) was increased in girls. Plotting the average of %fat as obtained from skinfold- and BAI-measurements against the difference between data obtained by the use of the two methods shows that BIA %fat overestimates skinfold %fat at low or normal percent fat mass (that is, up to 20%) in both genders. By contrast, at increased fat mass, BIA %fat seems to underestimate skinfold %fat in both genders.

CONCLUSIONS: Gender differences in fat mass and fat distribution are obvious in children aged 5–7 y. These differences are independent of gender differences in body weight. However, the nutritional state has an influence and gender differences cannot be detected in overweight and obese children. Our data also suggest that a children- specific formula used to calculate %fat from skinfold measurements is inappropriate.