AI Article Synopsis
- Bone mineral content in prepubertal children is lower in comparison to bone length when expressed as a percentage of adult averages, raising concerns about potential bone fragility.
- The study involved 145 healthy participants, examining various bone metrics using advanced imaging methods, with results adjusted for different dimensions and comparisons made between sexes.
- Findings indicated that while prepubertal boys and girls showed no significant differences in bone and muscle metrics, post-puberty, males exhibited larger bone dimensions and muscle areas than females, though women had relatively higher bone area when adjusted for muscle size.
Article Abstract
Introduction: When expressed as a percentage of the average result in young adults, bone mineral content lags behind bone length before puberty. Even though this observation has led to speculation about bone fragility in children, such relationships could simply be due to scaling effects when measures with different geometrical dimensions are compared.
Methods: The study population comprised 145 healthy subjects (6-25 years, 94 females). Magnetic resonance imaging and dual-energy X-ray absorptiometry were used to determine femur length, bone mineral content, cortical bone mineral density, cross-sectional bone geometry (bone diameter; cortical thickness; total, cortical and medullary areas; cross-sectional and polar moments of area; bone strength index) and muscle area at the proximal one-third site of the femur. Results were dimensionally scaled by raising two-, three- and four-dimensional variables to the power of 1/2, 1/3 and 1/4, respectively. Sex-differences were also assessed before and after functionally adjusting variables for femur length and weight or muscle size.
Results: In prepubertal children, unscaled results expressed as percentages of adult values were lowest for variables with the highest dimensions (e.g., moments of area
Conclusions: Growth in femoral length, diameter, mass and strength appears well coordinated before puberty. Postpubertal females have narrower femora, less bone strength and muscle size than males. However, when muscle size is taken into account, females have a larger femoral bone cross-section and more cortical bone. These sex-differences likely result from a combination of mechanical and hormonal effects occurring during puberty.
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| http://dx.doi.org/10.1016/j.bone.2008.01.008 | DOI Listing |
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