OBJECTIVE: To compare trajectories for growth and somatic health characteristics until adulthood of non-handicapped low birthweight (LBW) and normal birthweight (NBW) children. STUDY DESIGN: Population-based longitudinal follow-up study. PATIENTS: LBW (<2 kg) and NBW (>3 kg) children were followed at 5, 11 and 19 years of age. At 19 years 134 of 173 subjects with LBW (77%), and 135 of the 170 with NBW (79%) participated. RESULTS: Current health and body mass index (BMI) were similar for the groups. The LBW adults were shorter (5.9 cm), had higher systolic (4.5 mm Hg) and diastolic (2.0 mm Hg) blood pressures (BPs), higher heart rates (3.7 beats per min), lower forced expiratory flow at 50% of forced vital capacity (8.5%) and forced expiratory volume in 1 second/forced vital capacity ratios (0.03). All p values are <0.01 for the differences of means given above. Differences in height were mostly due to differences in parental height. From childhood, percentiles for height and systolic BP were maintained for both groups while diastolic BP increased more for the LBW children. The LBW young adults caught up in body proportions. CONCLUSION: Difference in height and systolic BP between the LBW and NBW children tend to be maintained from childhood until young adulthood. The LBW young adults experience catch-up growth in body proportions. The LBW young adults have lower pulmonary function.
OBJECTIVE: To compare trajectories for growth and somatic health characteristics until adulthood of non-handicapped low birthweight (LBW) and normal birthweight (NBW) children. STUDY DESIGN: Population-based longitudinal follow-up study. PATIENTS: LBW (<2 kg) and NBW (>3 kg) children were followed at 5, 11 and 19 years of age. At 19 years 134 of 173 subjects with LBW (77%), and 135 of the 170 with NBW (79%) participated. RESULTS: Current health and body mass index (BMI) were similar for the groups. The LBW adults were shorter (5.9 cm), had higher systolic (4.5 mm Hg) and diastolic (2.0 mm Hg) blood pressures (BPs), higher heart rates (3.7 beats per min), lower forced expiratory flow at 50% of forced vital capacity (8.5%) and forced expiratory volume in 1 second/forced vital capacity ratios (0.03). All p values are <0.01 for the differences of means given above. Differences in height were mostly due to differences in parental height. From childhood, percentiles for height and systolic BP were maintained for both groups while diastolic BP increased more for the LBW children. The LBW young adults caught up in body proportions. CONCLUSION: Difference in height and systolic BP between the LBW and NBW children tend to be maintained from childhood until young adulthood. The LBW young adults experience catch-up growth in body proportions. The LBW young adults have lower pulmonary function.
Authors: S M Aukland; R Westerhausen; K J Plessen; M D Odberg; I B Elgen; B S Peterson; L Ersland; G E Eide; K Rosendahl Journal: AJNR Am J Neuroradiol Date: 2011-04-14 Impact factor: 3.825