随机森林机器学习框架可减少年轻铁人三项运动员的跑步受伤。

A Random Forest Machine Learning Framework to Reduce Running Injuries in Young Triathletes.

机构信息

Department of Physiotherapy, Universidad Cardenal Herrera-CEU, CEU Universities, 46115 Valencia, Spain.

Embedded Systems and Artificial Intelligence Group, Universidad Cardenal Herrera-CEU, CEU Universities, 46115 Valencia, Spain.

出版信息

Sensors (Basel). 2020 Nov 9;20(21):6388. doi: 10.3390/s20216388.

DOI:10.3390/s20216388

PMID:33182357

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7664858/

Abstract

BACKGROUND

The running segment of a triathlon produces 70% of the lower limb injuries. Previous research has shown a clear association between kinematic patterns and specific injuries during running.

METHODS

After completing a seven-month gait retraining program, a questionnaire was used to assess 19 triathletes for the incidence of injuries. They were also biomechanically analyzed at the beginning and end of the program while running at a speed of 90% of their maximum aerobic speed (MAS) using surface sensor dynamic electromyography and kinematic analysis. We used classification tree (random forest) techniques from the field of artificial intelligence to identify linear and non-linear relationships between different biomechanical patterns and injuries to identify which styles best prevent injuries.

RESULTS

Fewer injuries occurred after completing the program, with athletes showing less pelvic fall and greater activation in gluteus medius during the first phase of the float phase, with increased trunk extension, knee flexion, and decreased ankle dorsiflexion during the initial contact with the ground.

CONCLUSIONS

The triathletes who had suffered the most injuries ran with increased pelvic drop and less activation in gluteus medius during the first phase of the float phase. Contralateral pelvic drop seems to be an important variable in the incidence of injuries in young triathletes.

摘要

背景

铁人三项的跑步项目会产生 70%的下肢损伤。之前的研究表明，在跑步过程中，运动学模式与特定损伤之间存在明显的关联。

方法

在完成七个月的步态再训练计划后，通过问卷调查了 19 名铁人三项运动员的受伤情况。在计划开始和结束时，他们以 90%最大有氧速度（MAS）的速度跑步，使用表面传感器动态肌电图和运动学分析进行生物力学分析。我们使用人工智能领域的分类树（随机森林）技术来识别不同生物力学模式与损伤之间的线性和非线性关系，以确定哪种风格最能预防损伤。

结果

完成计划后受伤的情况减少了，运动员在漂浮阶段的第一阶段骨盆下降减少，臀中肌激活增加，在初始接触地面时躯干伸展增加，膝关节弯曲，踝关节背屈减少。

结论

受伤最多的铁人三项运动员在漂浮阶段的第一阶段骨盆下降增加，臀中肌激活减少。对侧骨盆下降似乎是年轻铁人三项运动员受伤发生率的一个重要变量。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bb82/7664858/7d1287829799/sensors-20-06388-g001.jpg

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随机森林机器学习框架可减少年轻铁人三项运动员的跑步受伤。

A Random Forest Machine Learning Framework to Reduce Running Injuries in Young Triathletes.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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