外周定量CT扇形分析显示，运动早期可引起胫骨骨密度增加。

Peripheral QCT sector analysis reveals early exercise-induced increases in tibial bone mineral density.

作者信息

Evans R K, Negus C H, Centi A J, Spiering B A, Kraemer W J, Nindl B C

机构信息

US Army Research Institute of Environmental Medicine, Natick, MA, USA.

出版信息

J Musculoskelet Neuronal Interact. 2012 Sep;12(3):155-64.

PMID:22947547

Abstract

OBJECTIVES

The purpose of this controlled trial was to determine whether subtle changes in mineralization and geometry of the tibia were evident following short term exercise interventions.

METHODS

Fifty-seven female volunteers (age 20.1±1.6) were randomized to one of four, 13-week training groups: sedentary control, resistance training, aerobic training, or combined aerobic-resistance. A pQCT image analysis software was developed and used to analyze images taken at sites 4%, 38% and 66% from the distal tibia at baseline and at completion of training. Parameters of bone mineral density, geometry and strength were determined for the entire scan cross-section and for each of six 60° polar sectors. Repeated-measures ANOVA and Fisher's LSD post hoc tests analyzed the effects of training over time.

RESULTS

Trabecular density (TrDn) at the 4% site increased from 279.8±37.1 to 283.1±36.0 mg/cm(3) in the aerobic group, and from 285.1±24.6 to 287.5±22.9 mg/cm(3) in the combined group over the study period (P≤0.001). Regional sector analyses revealed that impact exercises resulted in localized changes to the medial aspect of the tibia. Small increases in total bone area were observed in the diaphysis (38% site) (P<0.05).

CONCLUSIONS

Subtle, regional increases in trabecular density may be an early measurable manifestation of bone quality changes.

摘要

目的

本对照试验旨在确定短期运动干预后胫骨矿化和几何结构的细微变化是否明显。

方法

57名女性志愿者（年龄20.1±1.6岁）被随机分为四个为期13周的训练组之一：久坐对照组、抗阻训练组、有氧训练组或有氧-抗阻联合训练组。开发了一种pQCT图像分析软件，并用于分析在基线和训练结束时从胫骨远端4%、38%和66%处采集的图像。确定了整个扫描横截面以及六个60°极坐标扇区中每个扇区的骨密度、几何结构和强度参数。重复测量方差分析和Fisher最小显著差事后检验分析了训练随时间的影响。

结果

在研究期间，有氧训练组4%部位的骨小梁密度（TrDn）从279.8±37.1mg/cm³增加到283.1±36.0mg/cm³，联合训练组从285.1±24.6mg/cm³增加到287.5±22.9mg/cm³（P≤0.001）。区域扇区分析显示，冲击性运动导致胫骨内侧局部发生变化。骨干（38%部位）的总骨面积有小幅增加（P<0.05）。

结论

骨小梁密度的细微区域增加可能是骨质量变化的早期可测量表现。

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外周定量CT扇形分析显示，运动早期可引起胫骨骨密度增加。

Peripheral QCT sector analysis reveals early exercise-induced increases in tibial bone mineral density.

作者信息

机构信息

出版信息

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METHODS

RESULTS

CONCLUSIONS

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结果

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