髋关节伸肌运动的股骨颈机械反应:一个案例研究

IF 1.1 Q3 ORTHOPEDICS Journal of Osteoporosis Pub Date : 2017-01-11 DOI:10.1155/2017/5219541
S. Martelli, H. Mokhtarzadeh, P. Pivonka, P. Ebeling
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引用次数: 6

摘要

建议进行体育锻炼以防止与年龄相关的骨质流失。然而,股骨近端机械反应是可变的,可能是由于肌肉依赖的机械反应。我们比较了股骨近端反应与髋伸肌产生的股骨应变模式。一名健康的参与者接受了为期六个月的髋伸肌单侧训练,使用阻力重量定期调整到一次重复最大重量的80%。根据对照腿的变化调整运动腿中基于dxa的面积骨矿物质密度(aBMD)测量值。骨适应的生物力学刺激(BS)是使用已发表的肌肉骨骼系统模型和老年参与者的平均髋关节伸展力矩来计算的。计算体积(ΔvBMD)和面积(ΔaBMD)骨密度变化。测量和计算的骨密度变化一致显示运动对股骨颈的正、负影响(ΔaBMD = +0.7%;ΔvBMD = +0.8%)和转子区(ΔaBMD =−4.1%;ΔvBMD =−0.5%)。17%的股骨颈超过了BS空间异质性分布的第75百分位。髋关节伸肌运动可能对股骨颈近端有益,但对股骨粗隆区无效。基于dxa的测量可能无法捕获重要的aBMD局部变化。
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The Femoral Neck Mechanoresponse to Hip Extensors Exercise: A Case Study
Physical activity is recommended to prevent age-related bone loss. However, the proximal femur mechanoresponse is variable, possibly because of a muscle-dependant mechanoresponse. We compared the proximal femur response with the femoral strain pattern generated by the hip extensor muscles. A healthy participant underwent a six-month unilateral training of the hip extensor muscles using a resistance weight regularly adjusted to the 80% of the one-repetition maximum weight. DXA-based measurements of the areal Bone Mineral Density (aBMD) in the exercise leg were adjusted for changes in the control leg. The biomechanical stimulus for bone adaptation (BS) was calculated using published models of the musculoskeletal system and the average hip extension moment in elderly participants. Volumetric (ΔvBMD) and areal (ΔaBMD) BMD changes were calculated. The measured and calculated BMD changes consistently showed a positive and negative effect of exercise in the femoral neck (ΔaBMD = +0.7%; ΔvBMD = +0.8%) and the trochanter region (ΔaBMD = −4.1%; ΔvBMD = −0.5%), respectively. The 17% of the femoral neck exceeded the 75th percentile of the spatially heterogeneous BS distribution. Hip extensor exercises may be beneficial in the proximal femoral neck but not in the trochanteric region. DXA-based measurements may not capture significant aBMD local changes.
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来源期刊
CiteScore
3.60
自引率
0.00%
发文量
6
审稿时长
20 weeks
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