OBJECTIVE: This study identified genetic and environmental influences on the tracking of body size from birth to 16 to 18.5 years of age. RESEARCH METHODS AND PROCEDURES: Longitudinal information was collected from a nationally representative sample of Finnish twin adolescents (birth cohorts 1975 to 1979) and their parents through questionnaires mailed when the twins were ages 16 and 18.5 years old. The sample included 702 monozygotic, 724 same-sex dizygotic, and 762 opposite-sex dizygotic sets of twins. The measures used were length, weight, ponderal index (kilograms per cubic meters), and gestational age at birth, and height, weight, and body mass index (kilograms per square meters) at 16 to 18.5 years of age. The changes in genetic and environmental influences on body size from birth to early adulthood were analyzed by quantitative genetic modeling. RESULTS: The twins who had a higher weight or ponderal index at birth were taller and heavier in early adulthood, whereas those who were longer at birth were taller, but not heavier, later in life. Adult height was affected more by the birth size than body mass index. In the genetic modeling analyses, the genetic factors accounting for the variation of body size became more apparent with age, and both genetic and environmental influences on stature had a sizable carry-over effect from birth to late adolescence, whereas for relative weight, the influences were more age-specific. DISCUSSION: The genetic and environmental architecture of body size changes from birth to adulthood. Even in monozygotic twins who share their genetic background, the initially larger twin tended to remain larger, demonstrating the long-lasting effects of fetal environment on final body size.
OBJECTIVE: This study identified genetic and environmental influences on the tracking of body size from birth to 16 to 18.5 years of age. RESEARCH METHODS AND PROCEDURES: Longitudinal information was collected from a nationally representative sample of Finnish twin adolescents (birth cohorts 1975 to 1979) and their parents through questionnaires mailed when the twins were ages 16 and 18.5 years old. The sample included 702 monozygotic, 724 same-sex dizygotic, and 762 opposite-sex dizygotic sets of twins. The measures used were length, weight, ponderal index (kilograms per cubic meters), and gestational age at birth, and height, weight, and body mass index (kilograms per square meters) at 16 to 18.5 years of age. The changes in genetic and environmental influences on body size from birth to early adulthood were analyzed by quantitative genetic modeling. RESULTS: The twins who had a higher weight or ponderal index at birth were taller and heavier in early adulthood, whereas those who were longer at birth were taller, but not heavier, later in life. Adult height was affected more by the birth size than body mass index. In the genetic modeling analyses, the genetic factors accounting for the variation of body size became more apparent with age, and both genetic and environmental influences on stature had a sizable carry-over effect from birth to late adolescence, whereas for relative weight, the influences were more age-specific. DISCUSSION: The genetic and environmental architecture of body size changes from birth to adulthood. Even in monozygotic twins who share their genetic background, the initially larger twin tended to remain larger, demonstrating the long-lasting effects of fetal environment on final body size.
Authors: Paul G Sanfilippo; Sarah E Medland; Alex W Hewitt; Lisa S Kearns; Jonathan B Ruddle; Cong Sun; Christopher J Hammond; Terri L Young; Nicholas G Martin; David A Mackey Journal: Invest Ophthalmol Vis Sci Date: 2011-07-29 Impact factor: 4.799
Authors: Wiesław A Jedrychowski; Frederica P Perera; Renata Majewska; Dorota Mrozek-Budzyn; Elżbieta Mroz; Emily L Roen; Agata Sowa; Ryszard Jacek Journal: Environ Res Date: 2014-11-20 Impact factor: 6.498
Authors: Brett C Haberstick; Jeffery M Lessem; Matthew B McQueen; Jason D Boardman; Christian J Hopfer; Andrew Smolen; John K Hewitt Journal: Behav Genet Date: 2010-01-20 Impact factor: 2.805
Authors: V Svensson; J A Jacobsson; R Fredriksson; P Danielsson; T Sobko; H B Schiöth; C Marcus Journal: Int J Obes (Lond) Date: 2010-09-21 Impact factor: 5.095
Authors: Elizabeth K Do; Brett C Haberstick; Redford B Williams; Jeffrey M Lessem; Andrew Smolen; Ilene C Siegler; Bernard F Fuemmeler Journal: Int J Obes (Lond) Date: 2018-10-22 Impact factor: 5.095
Authors: Yoshie Yokoyama; Aline Jelenkovic; Reijo Sund; Joohon Sung; John L Hopper; Syuichi Ooki; Kauko Heikkilä; Sari Aaltonen; Adam D Tarnoki; David L Tarnoki; Gonneke Willemsen; Meike Bartels; Toos C E M van Beijsterveldt; Kimberly J Saudino; Tessa L Cutler; Tracy L Nelson; Keith E Whitfield; Jane Wardle; Clare H Llewellyn; Abigail Fisher; Mingguang He; Xiaohu Ding; Morten Bjerregaard-Andersen; Henning Beck-Nielsen; Morten Sodemann; Yun-Mi Song; Sarah Yang; Kayoung Lee; Hoe-Uk Jeong; Ariel Knafo-Noam; David Mankuta; Lior Abramson; S Alexandra Burt; Kelly L Klump; Juan R Ordoñana; Juan F Sánchez-Romera; Lucia Colodro-Conde; Jennifer R Harris; Ingunn Brandt; Thomas Sevenius Nilsen; Jeffrey M Craig; Richard Saffery; Fuling Ji; Feng Ning; Zengchang Pang; Lise Dubois; Michel Boivin; Mara Brendgen; Ginette Dionne; Frank Vitaro; Nicholas G Martin; Sarah E Medland; Grant W Montgomery; Patrik K E Magnusson; Nancy L Pedersen; Anna K Dahl Aslan; Per Tynelius; Claire M A Haworth; Robert Plomin; Esther Rebato; Richard J Rose; Jack H Goldberg; Finn Rasmussen; Yoon-Mi Hur; Thorkild I A Sørensen; Dorret I Boomsma; Jaakko Kaprio; Karri Silventoinen Journal: Twin Res Hum Genet Date: 2016-04 Impact factor: 1.587