通过加速度大小、振动持续时间和发作次数对骨骼对低强度振动的敏感性进行调节。

Modulation of bone's sensitivity to low-intensity vibrations by acceleration magnitude, vibration duration, and number of bouts.

作者信息

Judex S, Koh T J, Xie L

机构信息

Department of Biomedical Engineering, Stony Brook University, Bioengineering Building, Rm 213, Stony Brook, NY, 11794-5281, USA,

出版信息

Osteoporos Int. 2015 Apr;26(4):1417-28. doi: 10.1007/s00198-014-3018-5. Epub 2015 Jan 23.

DOI:10.1007/s00198-014-3018-5

PMID:25614140

Abstract

UNLABELLED

Variables defining vibration-based biomechanical treatments were tested by their ability to affect the musculoskeleton in the growing mouse. Duration of a vibration bout, but not variations in vibration intensity or number of vibration bouts per day, was identified as modulator of trabecular bone formation rates.

INTRODUCTION

Low-intensity vibrations (LIV) may enhance musculoskeletal properties, but little is known regarding the role that individual LIV variables play. We determined whether acceleration magnitude and/or the number and duration of daily loading bouts may modulate LIV efficacy.

METHODS

LIV was applied to 8-week-old mice at either 0.3 g or 0.6 g for three weeks; the number of daily bouts was one, two, or four, and the duration of a single bout was 15, 30, or 60 min. A frequency of 45 Hz was used throughout.

RESULTS

LIV induced tibial cortical surface strains in 4-month-old mice of approximately 10 με at 0.3 g and 30 με at 0.6 g. In trabecular bone of the proximal tibial metaphysis, all single daily bout signal combinations with the exception of a single 15 min daily bout at 0.3 g (i.e., single bouts of 30 and 60 min at 0.3 g and 15 and 30 min at 0.6 g) produced greater bone formation rates (BFR/BS) than in controls. Across all signal combinations, 30 and 60 min bouts were significantly more effective than 15 min bouts in raising BFR/BS above control levels. Increasing the number of daily bouts or partitioning a single daily bout into several shorter bouts did not potentiate efficacy and in some instances led to BFR/BS that was not significantly different from those in controls. Bone chemical and muscle properties were similar across all groups.

CONCLUSIONS

These data may provide a basis towards optimization of LIV efficacy and indicate that in the growing mouse skeleton, increasing bout duration from 15 to 30 or 60 min positively influences BFR/BS.

摘要

未标注

通过评估基于振动的生物力学治疗变量对生长中小鼠肌肉骨骼的影响能力来进行测试。确定了一次振动的持续时间是小梁骨形成率的调节因素，而振动强度的变化或每天振动次数并非如此。

引言

低强度振动（LIV）可能增强肌肉骨骼特性，但对于各个LIV变量所起的作用了解甚少。我们确定了加速度大小和/或每日加载次数及持续时间是否可调节LIV的功效。

方法

将LIV施加于8周龄小鼠，加速度为0.3g或0.6g，持续三周；每日次数为1次、2次或4次，单次持续时间为15分钟、30分钟或60分钟。全程使用45Hz的频率。

结果

LIV在4月龄小鼠胫骨皮质表面产生的应变，0.3g时约为10με，0.6g时约为30με。在胫骨近端干骺端的小梁骨中，除了0.3g时单次15分钟的每日振动（即0.3g时30分钟和60分钟的单次振动以及0.6g时15分钟和30分钟的单次振动）外，所有每日单次振动信号组合产生的骨形成率（BFR/BS）均高于对照组。在所有信号组合中，30分钟和60分钟的振动在将BFR/BS提高到对照水平以上方面明显比15分钟的振动更有效。增加每日振动次数或将单次每日振动分成几个较短的振动并未增强功效，在某些情况下导致的BFR/BS与对照组无显著差异。所有组的骨化学和肌肉特性相似。

结论

这些数据可为优化LIV功效提供依据，并表明在生长中的小鼠骨骼中，将振动持续时间从15分钟增加到30分钟或60分钟对BFR/BS有积极影响。

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通过加速度大小、振动持续时间和发作次数对骨骼对低强度振动的敏感性进行调节。

Modulation of bone's sensitivity to low-intensity vibrations by acceleration magnitude, vibration duration, and number of bouts.

作者信息

机构信息

出版信息

UNLABELLED

INTRODUCTION

METHODS

RESULTS

CONCLUSIONS

未标注

引言

方法

结果

结论

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