TY - JOUR
T1 - Determinants of bone mineral density, bone mineral content, and body composition in a cohort of healthy children: Influence of sex, age, puberty, and physical activity
AU - Ausili, Emanuele
AU - Rigante, Donato
AU - Salvaggio, Elio
AU - Focarelli, Benedetta
AU - Rendeli, Claudia
AU - Ansuini, Valentina
AU - Paolucci, Valentina
AU - Triarico, Silvia
AU - Martini, Lucilla
AU - Caradonna, Paolo
PY - 2012
Y1 - 2012
N2 - Interventions directed to the recognition of abnormal bone mineral density, bone mineral content, and body composition in the pediatric age require the definition of factors influencing bone mass acquisition during growth. We have evaluated in a cross-sectional manner by dualenergy X-ray absorptiometry the impact of sex, age, puberty, and physical activity on total body areal bone mineral density, regional (lumbar and femoral) bone mineral densities, bone mineral content, and body composition (fat mass and lean mass) in a cohort of 359 healthy Italian children aged 3-14 years and investigated their specific contribution to bone mass accrual. Statistical multiple regression analysis was performed dividing the population in pre- and post-pubertal groups. Bone mineral density at the lumbar spine has resulted equally distributed in both sexes before puberty while has resulted higher at the femoral necks in males at whatever age. A significant effect on bone mass acquisition was exerted by male sex and lean mass. In the areas where the cortical bone is prevalent, males of the pre-pubertal group have presented the highest values; in the areas where the cancellous bone is prevalent, both sexes were equivalent until the age of 9 years, but after this age, females have presented higher increases, probably related to the inferior dimensional development of lumbar vertebrae. Conclusively, male sex and lean mass seem to represent independent predictors of bone mass accrual in the cortical bone of the examined children, while female sex and pubertal maturation are independent predictors of bone mass accrual in the trabecular bone. © Springer-Verlag 2011.
AB - Interventions directed to the recognition of abnormal bone mineral density, bone mineral content, and body composition in the pediatric age require the definition of factors influencing bone mass acquisition during growth. We have evaluated in a cross-sectional manner by dualenergy X-ray absorptiometry the impact of sex, age, puberty, and physical activity on total body areal bone mineral density, regional (lumbar and femoral) bone mineral densities, bone mineral content, and body composition (fat mass and lean mass) in a cohort of 359 healthy Italian children aged 3-14 years and investigated their specific contribution to bone mass accrual. Statistical multiple regression analysis was performed dividing the population in pre- and post-pubertal groups. Bone mineral density at the lumbar spine has resulted equally distributed in both sexes before puberty while has resulted higher at the femoral necks in males at whatever age. A significant effect on bone mass acquisition was exerted by male sex and lean mass. In the areas where the cortical bone is prevalent, males of the pre-pubertal group have presented the highest values; in the areas where the cancellous bone is prevalent, both sexes were equivalent until the age of 9 years, but after this age, females have presented higher increases, probably related to the inferior dimensional development of lumbar vertebrae. Conclusively, male sex and lean mass seem to represent independent predictors of bone mass accrual in the cortical bone of the examined children, while female sex and pubertal maturation are independent predictors of bone mass accrual in the trabecular bone. © Springer-Verlag 2011.
KW - Bone mineral content
KW - Bone mineral density
KW - Lean mass
KW - Fat mass
KW - Child
KW - Bone mineral content
KW - Bone mineral density
KW - Lean mass
KW - Fat mass
KW - Child
UR - http://hdl.handle.net/10807/257436
U2 - 10.1007/s00296-011-2059-8
DO - 10.1007/s00296-011-2059-8
M3 - Article
SN - 0172-8172
VL - 32
SP - 2737
EP - 2743
JO - Rheumatology International
JF - Rheumatology International
ER -