跑步和骑自行车后膝关节软骨横向弛豫时间的急性变化

Acute changes in knee cartilage transverse relaxation time after running and bicycling.

作者信息

Gatti Anthony A, Noseworthy Michael D, Stratford Paul W, Brenneman Elora C, Totterman Saara, Tamez-Peña José, Maly Monica R

机构信息

School of Rehabilitation Sciences, McMaster University, Hamilton, Canada.

School of Biomedical Engineering, McMaster University, Hamilton, Canada; Electrical and Computer Engineering, McMaster University, Hamilton, Canada.

出版信息

J Biomech. 2017 Feb 28;53:171-177. doi: 10.1016/j.jbiomech.2017.01.017. Epub 2017 Jan 19.

DOI:10.1016/j.jbiomech.2017.01.017

PMID:28148412

Abstract

PURPOSE

To compare the acute effect of running and bicycling of an equivalent cumulative load on knee cartilage composition and morphometry in healthy young men. A secondary analysis investigated the relationship between activity history and the change in cartilage composition after activity.

METHODS

In fifteen men (25.8±4.2 years), the vertical ground reaction force was measured to determine the cumulative load exposure of a 15-min run. The vertical pedal reaction force was recorded during bicycling to define the bicycling duration of an equivalent cumulative load. On separate visits that were spaced on average 17 days apart, participants completed these running and bicycling bouts. Mean cartilage transverse relaxation times (T) were determined for cartilage on the tibia and weight-bearing femur before and after each exercise. T was measured using a multi-echo spin-echo sequence and 3T MRI. Cartilage of the weight bearing femur and tibia was segmented using a highly-automated segmentation algorithm. Activity history was captured using the International Physical Activity Questionnaire.

RESULTS

The response of T to bicycling and running was different (p=0.019; mean T: pre-running=34.27ms, pre-bicycling=32.93ms, post-running=31.82ms, post-bicycling=32.36ms). While bicycling produced no change (-1.7%, p=0.300), running shortened T (-7.1%, p<0.001). Greater activity history predicted smaller changes in tibial, but not femoral, T.

CONCLUSIONS

Changes in knee cartilage vary based on activity type, independent of total load exposure, in healthy young men. Smaller changes in T were observed after bicycling relative to running. Activity history was inversely related to tibial T, suggesting cartilage conditioning.

摘要

目的

比较同等累积负荷的跑步和骑自行车运动对健康年轻男性膝关节软骨成分和形态测量的急性影响。一项二次分析研究了运动史与运动后软骨成分变化之间的关系。

方法

对15名男性（25.8±4.2岁）测量垂直地面反作用力，以确定15分钟跑步的累积负荷暴露量。在骑自行车过程中记录垂直踏板反作用力，以确定同等累积负荷的骑行持续时间。在平均间隔17天的不同时间点，参与者完成这些跑步和骑自行车运动。在每次运动前后，测定胫骨和负重股骨软骨的平均横向弛豫时间（T）。使用多回波自旋回波序列和3T磁共振成像测量T。使用高度自动化的分割算法对负重股骨和胫骨的软骨进行分割。使用国际体力活动问卷获取运动史。

结果

T对骑自行车和跑步的反应不同（p=0.019；平均T：跑步前=34.27毫秒，骑自行车前=32.93毫秒，跑步后=31.82毫秒，骑自行车后=32.36毫秒）。骑自行车没有导致变化（-1.7%，p=0.300），而跑步使T缩短（-7.1%，p<0.001）。运动史越长，胫骨T的变化越小，但股骨T并非如此。

结论

在健康年轻男性中，膝关节软骨的变化因运动类型而异，与总负荷暴露无关。与跑步相比，骑自行车后T的变化较小。运动史与胫骨T呈负相关，提示软骨适应性变化。

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跑步和骑自行车后膝关节软骨横向弛豫时间的急性变化

Acute changes in knee cartilage transverse relaxation time after running and bicycling.

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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