肌肉无力、痉挛和废用会导致慢性中风后桡骨脱矿质和几何形状改变。
Muscle weakness, spasticity and disuse contribute to demineralization and geometric changes in the radius following chronic stroke.
作者信息
Pang M Y C, Ashe M C, Eng J J
机构信息
Department of Rehabilitation Sciences, Hong Kong Polytechnic University, Hung Hom, Hong Kong, China.
出版信息
Osteoporos Int. 2007 Sep;18(9):1243-52. doi: 10.1007/s00198-007-0372-6. Epub 2007 Mar 31.
UNLABELLED
Bone health status of the radius in individuals with chronic stroke was evaluated using peripheral quantitative computed tomography. Bone mineral density and cortical thickness on the affected side were compromised when compared with the unaffected side. Muscle weakness, spasticity, and disuse were identified as contributing factors to such changes.
INTRODUCTION
Following a stroke, demineralization and geometric changes occur in bone as a result of disuse and residual impairments, and these can contribute to an increased risk of fragility fractures.
METHODS
This study used peripheral quantitative computed tomography (pQCT) to evaluate volumetric bone mineral density and geometry at the midshaft radius in people living with chronic stroke. Older individuals with chronic stroke were recruited. Each subject underwent a pQCT scan of the midshaft radius at the 30% site on both upper limbs. Muscle strength, motor function, spasticity, and chronic disuse were also evaluated. Data from 47 subjects (19 women) were assessed.
RESULTS
A significant difference was found between the two limbs for cortical bone mineral content, cortical bone mineral density, cortical thickness, and polar stress-strain index. There was no significant side-to-side difference in total bone area. Percent side-to-side difference in muscle strength, spasticity, and chronic disuse were significant determinants of percent side-to-side difference in cortical bone mineral content and cortical thickness.
CONCLUSIONS
The findings suggest that following chronic stroke, endosteal resorption of the midshaft radius occurred with a preservation of total bone area. Muscle weakness, spasticity, chronic disuse significantly contributed to demineralization and geometric changes in the radius following chronic stroke.
未标注
使用外周定量计算机断层扫描评估慢性中风患者桡骨的骨骼健康状况。与未受影响侧相比,患侧的骨矿物质密度和皮质厚度受损。肌肉无力、痉挛和废用被确定为导致这些变化的因素。
引言
中风后,由于废用和残留损伤,骨骼会发生脱矿质和几何形状变化,这些变化会增加脆性骨折的风险。
方法
本研究使用外周定量计算机断层扫描(pQCT)评估慢性中风患者桡骨中段的体积骨矿物质密度和几何形状。招募了患有慢性中风的老年人。每位受试者对双上肢30%部位的桡骨中段进行pQCT扫描。还评估了肌肉力量、运动功能、痉挛和慢性废用情况。对47名受试者(19名女性)的数据进行了评估。
结果
在皮质骨矿物质含量、皮质骨矿物质密度、皮质厚度和极向应力应变指数方面,两侧存在显著差异。总骨面积在两侧之间没有显著差异。肌肉力量、痉挛和慢性废用的两侧差异百分比是皮质骨矿物质含量和皮质厚度两侧差异百分比的重要决定因素。
结论
研究结果表明,慢性中风后,桡骨中段发生骨内膜吸收,而总骨面积保持不变。肌肉无力、痉挛、慢性废用显著导致慢性中风后桡骨的脱矿质和几何形状变化。
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