15至18岁女性运动员的股骨中段几何形状和生物力学特性

Mid-femur geometry and biomechanical properties in 15- to 18-yr-old female athletes.

作者信息

Duncan Craig S, Blimkie Cameron J R, Kemp Allan, Higgs William, Cowell Christopher T, Woodhead Helen, Briody Julie N, Howman-Giles Robert

机构信息

The New Children's Hospital, University of Sydney, Sydney, Australia.

出版信息

Med Sci Sports Exerc. 2002 Apr;34(4):673-81. doi: 10.1097/00005768-200204000-00018.

DOI:10.1097/00005768-200204000-00018

PMID:11932578

Abstract

PURPOSE

Right-leg mid-femur geometry and biomechanical indices of bone strength were compared among elite cyclists (CYC), runners (RUN), swimmers (SWIM), triathletes (TRI), and controls (C)-10 subjects per group.

METHODS

Bone cross-sectional areas (CSA), volumes (Vol), and cross-sectional moments of inertia (CSMI) were assessed by magnetic resonance imaging (MRI), and cortical volumetric bone density (volBMD) was determined as the quotient of DXA-derived bone mineral content (BMC) and MRI-derived cortical bone volume. Bone strength index (BSI) was calculated as the product of cortical volBMD and CSMI.

RESULTS

RUN had higher (P < 0.05) size- (femur length and body mass) adjusted (ANCOVA) cortical CSA than C, SWIM, and CYC; and higher size, age, and years of sport-specific training- (YST) adjusted cortical CSA than SWIM and CYC. TRI had higher (P < 0.05) size-adjusted CSA than SWIM. SWIM and CYC had significantly larger (P < 0.05) size-adjusted medullary cavity CSA than RUN and TRI, and the difference between CYC and RUN persisted after additional adjustment for age and YST. RUN had significantly (P < 0.05) greater size-adjusted CSMI and BSI than C, SWIM, and CYC; and higher size, age, and YST-adjusted CSMI and BSI than SWIM and CYC. Mid-femur areal bone mineral density (BMD) was significantly (P < 0.05) higher for RUN compared with CYC only, but there were no other differences among groups for BMC, bone volumes, or volumetric total or cortical BMD.

CONCLUSIONS

Running, a weight-bearing exercise, is associated with more favorable geometric and biomechanical characteristics in relation to bone strength, compared with the weight supported activities of swimming and cycling. Differences may reflect skeletal adaptations to the specific mechanical-loading patterns inherent in these sports.

摘要

目的

比较精英自行车运动员（CYC）、跑步运动员（RUN）、游泳运动员（SWIM）、铁人三项运动员（TRI）和对照组（C）（每组10名受试者）右大腿中部股骨的几何结构和骨强度的生物力学指标。

方法

通过磁共振成像（MRI）评估骨横截面积（CSA）、体积（Vol）和截面惯性矩（CSMI），并将双能X线吸收法（DXA）得出的骨矿物质含量（BMC）与MRI得出的皮质骨体积的商确定为皮质骨体积密度（volBMD）。骨强度指数（BSI）计算为皮质volBMD与CSMI的乘积。

结果

与C组、SWIM组和CYC组相比，RUN组经大小（股骨长度和体重）调整（协方差分析）后的皮质CSA更高（P<0.05）；与SWIM组和CYC组相比，RUN组经大小、年龄和专项运动训练年限（YST）调整后的皮质CSA更高。TRI组经大小调整后的CSA比SWIM组更高（P<0.05）。与RUN组和TRI组相比，SWIM组和CYC组经大小调整后的髓腔CSA显著更大（P<0.05），在对年龄和YST进行额外调整后，CYC组和RUN组之间的差异仍然存在。与C组、SWIM组和CYC组相比，RUN组经大小调整后的CSMI和BSI显著更大（P<0.05）；与SWIM组和CYC组相比，RUN组经大小、年龄和YST调整后的CSMI和BSI更高。仅与CYC组相比，RUN组右大腿中部的骨面积密度（BMD）显著更高（P<0.05），但在BMC、骨体积或总体积或皮质骨密度方面，各组之间没有其他差异。

结论

与游泳和骑自行车等承重活动相比，跑步这种负重运动与更有利于骨强度的几何和生物力学特征相关。差异可能反映了骨骼对这些运动中固有特定机械负荷模式的适应性变化。

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15至18岁女性运动员的股骨中段几何形状和生物力学特性

Mid-femur geometry and biomechanical properties in 15- to 18-yr-old female athletes.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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