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Effect of maturational timing on bone health in male adolescent athletes engaged in different sports: The PRO-BONE study

Authors:	Esther Ubago-Guisado Dimitris Vlachopoulos Alan R. Barker Tore Christoffersen Brad Metcalf Luis Gracia-Marco

Affiliation:	1. IGOID Research Group, University of Castilla-La Mancha, Spain;2. Children’s Health and Exercise Research Centre, Sport and Health Sciences, University of Exeter, United Kingdom;3. Department of Health and Care Sciences, UiT The Arctic University of Norway, Norway;4. University of Exeter Medical School, United Kingdom;5. Growth, Exercise, Nutrition and Development Research Group, University of Zaragoza, Spain;6. PROFITH “PROmoting FITness and Health Through Physical Activity” Research Group, Department of Physical Education and Sport, Faculty of Sport Sciences, University of Granada, Spain

Abstract:	Objectives To describe differences in bone outcomes according to biological age in male athletes participating in osteogenic (OS) or non-osteogenic (NOS) sports. Design Longitudinal (12-months). Methods 104 adolescents (12–14 years) were measured at baseline and after 1y: OS group (n = 37 football or soccer players) and NOS group (n = 39 swimmers, n = 28 cyclists). Years from peak height velocity (PHV, ?2 to +2) was used as a maturational landmark. Bone mineral content (BMC) was assessed using DXA. Hip structural analysis estimated cross-sectional area (CSA), cross-sectional moment of inertia (CSMI) and section modulus (Z) at the femoral neck (FN). Trabecular bone score (TBS) estimated lumbar spine (LS) texture. Quantitative ultrasound measured bone stiffness. Multilevel regression models adjusted by hours of training were fitted. Results Compared to NOS, OS had significantly greater total body (less head) BMC from PHV to +2 years from PHV (from 9.5% to 11.3%, respectively); LS BMC from ?1 years from PHV to PHV (from 9.8% to 9.9%); hip BMC (from 11.6% to 22.9%), FN BMC (from 12.0% to 15.9%), TBS (from 4.2% to 4.8%) and stiffness index (from 11.9% to 23.3%) from ?1 years from PHV to +2 years from PHV; and CSA (from 8.4% to 18.8%), Z (from 5.5% to 22.9%) and CSMI (from 10.6% to 23.3%) from ?2 years from PHV to +2 years from PHV. There was a significant trend for the between-group differences to increase with biological age except for LS BMC and TBS. Conclusions These findings underline the differential bone response to different sports throughout the years surrounding PHV in male adolescent athletes.Clinical trial registration: ISRCTN17982776.

Keywords:	aBMD areal bone mineral density BMC bone mineral content BMI body mass index CSA cross-sectional area CSMI cross-sectional moment of inertia DXA dual energy x-ray absorptiometry FN femoral neck OS osteogenic sport HSA hip structural analysis NOS non-osteogenic sports LS lumbar spine PHV peak height velocity TBLH total body less head QUS quantitative ultrasound TBS trabecular bone score Z section modulus Bone ultrasound DXA Hip structural analysis Maturity Peak height velocity Trabecular bone score
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