Title: Heritability of somatotype components: a multivariate analysis
Authors: Peeters, Maarten ×
Thomis, Martine
Loos, Ruth
Derom, Cathérine
Fagard, Robert
Claessens, Albrecht
Vlietinck, Robert
Beunen, Gaston #
Issue Date: Aug-2007
Publisher: Macmillan Press
Series Title: International journal of obesity and related metabolic disorders vol:31 issue:8 pages:1295-1301
Abstract: Objective:To study the genetic and environmental determination of variation in Heath-Carter somatotype (ST) components (endomorphy, mesomorphy and ectomorphy).Design:Multivariate path analysis on twin data.Subjects:Eight hundred and three members of 424 adult Flemish twin pairs (18-34 years of age).Results:The results indicate the significance of sex differences and the significance of the covariation between the three ST components. After age-regression, variation of the population in ST components and their covariation is explained by additive genetic sources of variance (A), shared (familial) environment (C) and unique environment (E). In men, additive genetic sources of variance explain 28.0% (CI 8.7-50.8%), 86.3% (71.6-90.2%) and 66.5% (37.4-85.1%) for endomorphy, mesomorphy and ectomorphy, respectively. For women, corresponding values are 32.3% (8.9-55.6%), 82.0% (67.7-87.7%) and 70.1% (48.9-81.8%). For all components in men and women, more than 70% of the total variation was explained by sources of variance shared between the three components, emphasising the importance of analysing the ST in a multivariate way.Conclusions:The findings suggest that the high heritabilities for mesomorphy and ectomorphy reported in earlier twin studies in adolescence are maintained in adulthood. For endomorphy, which represents a relative measure of subcutaneous adipose tissue, however, the results suggest heritability may be considerably lower than most values reported in earlier studies on adolescent twins. The heritability is also lower than values reported for, for example, body mass index (BMI), which next to the weight of organs and adipose tissue also includes muscle and bone tissue. Considering the differences in heritability between musculoskeletal robustness (mesomorphy) and subcutaneous adipose tissue (endomorphy) it may be questioned whether studying the genetics of BMI will eventually lead to a better understanding of the genetics of fatness, obesity and overweight.International Journal of Obesity advance online publication, 6 March 2007; doi:10.1038/sj.ijo.0803575.
ISSN: 0307-0565
Publication status: published
KU Leuven publication type: IT
Appears in Collections:Exercise Physiology Research Group
Department of Kinesiology - miscellaneous
Clinical Genetics Section (-)
Hypertension and Cardiovascular Epidemiology
Department of Human Genetics - miscellaneous
Physical Activity, Sports & Health Research Group
× corresponding author
# (joint) last author

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