青年期的骨骼负荷可预测身体活跃的中年男性的骨密度。
Bone loading during young adulthood predicts bone mineral density in physically active, middle-aged men.
作者信息
Rogers Robert S, Hinton Pamela S
机构信息
, , Michael J. Langworthy MD 1 Amira Saad MD 2 Nadia M. Langworthy MD 3 1Battle Creek Orthopaedics and Sports Medicine Clinic Battle Creek MI 2Michigan State University East Lansing MI 3University of Michigan Ann Arbor MI Correspondence: Michael J. Langworthy MD Battle Creek Orthopaedics and Sports Medicine Clinic 6417 N. 39th St. Augusta MI 49012. Tel: 269-209-5066 Fax: 269-969-6283 E-mail:
出版信息
Phys Sportsmed. 2010 Jun;38(2):146-55. doi: 10.3810/psm.2010.06.1793.
BACKGROUND
Physical activity during growth induces skeletal adaptations that increase bone strength; however, it remains unclear whether these benefits persist into middle age.
OBJECTIVE
We sought to determine if bone loading during adolescence (ages 13-18 years) or young adulthood (ages 19-29 years) in men is associated with greater bone mineral density (BMD) and reduced risk of low bone density in adulthood. We also sought to determine if participation in high-impact activities (ie, those that produce a ground reaction force [GRF] > 4 times the individual's body weight] during adolescence and/or young adulthood has a lasting positive effect on adult BMD.
METHODS
Eighty-six, apparently healthy, physically active men (aged 30-60 years) participated in this cross-sectional study. Bone loading during adolescence, young adulthood, and adulthood were calculated based on GRFs of the reported physical activities. Whole body, lumbar spine, total hip, and femoral neck BMD were assessed using dual-energy x-ray absorptiometry (DXA). Multiple linear regression was used to examine relationships between BMD and bone loading, including body weight and/or age as covariates; logistic regression was used to predict low bone density for age. Participants were grouped based on participation in high-impact activity (never [n = 42], adolescence only [n = 19], or both adolescence and young adulthood [n=23]), and BMDs were compared.
RESULTS
Bone loading during young adulthood, but not adolescence, was a significant positive predictor of adult BMD, with the full models explaining 33.4%, 31.7%, 44.6%, and 50.6% of the variance in whole body, lumbar spine, total hip, and femoral neck BMD, respectively. Ten participants (11.6%) had low bone density for age based on z scores of the hip or spine. Body weight and lean body mass, but not bone loading, were associated with reduced risk of low bone density for age. Individuals who participated in high-impact activity during both adolescence and young adulthood had greater BMD at all measured sites compared with those participated only during adolescence.
CONCLUSION
The results of the study support a lifelong exercise prescription for bone health to preserve the skeletal benefits of activity derived from activity during adolescence and young adulthood.
背景
成长过程中的身体活动会引起骨骼适应性变化,增强骨骼强度;然而,这些益处是否能持续到中年仍不清楚。
目的
我们试图确定男性在青春期(13 - 18岁)或青年期(19 - 29岁)的骨骼负荷是否与成年后更高的骨矿物质密度(BMD)以及更低的低骨密度风险相关。我们还试图确定在青春期和/或青年期参与高冲击活动(即产生的地面反作用力[GRF]大于个体体重4倍的活动)是否对成年后的骨密度有持久的积极影响。
方法
86名明显健康、积极参加体育活动的男性(年龄30 - 60岁)参与了这项横断面研究。根据所报告体育活动的地面反作用力计算青春期、青年期和成年期的骨骼负荷。使用双能X线吸收法(DXA)评估全身、腰椎、全髋和股骨颈的骨密度。采用多元线性回归分析骨密度与骨骼负荷之间的关系,将体重和/或年龄作为协变量;采用逻辑回归预测年龄相关的低骨密度。根据参与高冲击活动的情况将参与者分组(从不参与[n = 42]、仅在青春期参与[n = 19]或在青春期和青年期都参与[n = 23]),并比较骨密度。
结果
青年期而非青春期的骨骼负荷是成年后骨密度的显著正向预测因素,完整模型分别解释了全身、腰椎、全髋和股骨颈骨密度变异的33.4%、31.7%、44.6%和50.6%。根据髋部或脊柱的z评分,10名参与者(11.6%)存在年龄相关的低骨密度。体重和瘦体重而非骨骼负荷与年龄相关的低骨密度风险降低有关。与仅在青春期参与高冲击活动的个体相比,在青春期和青年期都参与高冲击活动的个体在所有测量部位的骨密度更高。
结论
该研究结果支持为骨骼健康制定终身运动处方,以保持青春期和青年期活动所带来的骨骼益处。
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