在美国军事学院学员基础训练期间,使用可穿戴传感器技术分析跑步技术和潜在的跑步相关损伤。
Using Wearable Sensor Technology to Analyze Running Technique and Prospective Running-Related Injuries During United States Military Cadet Basic Training.
作者信息
Weart Amy N, Brown Lauren C, Florkiewicz Erin M, Freisinger Gregory M, East Kyle H, Reilly Nicholas, Song Jinsup, Goss Donald L
机构信息
The Geneva Foundation, Tacoma, Washington, USA.
Department of Physical Therapy, Keller Army Community Hospital, West Point, New York, USA.
出版信息
Orthop J Sports Med. 2025 Feb 6;13(2):23259671241309273. doi: 10.1177/23259671241309273. eCollection 2025 Feb.
BACKGROUND
Running biomechanics have been linked to the development of running-related injuries in recreational and military runners.
PURPOSE/HYPOTHESIS: The purpose of this study was to determine if personal characteristics or running biomechanical variables are associated with running-related injury incidence or time to injury in military cadets undergoing training. It was hypothesized that a rearfoot strike pattern, greater rate of impact, or a lower step rate would be related to a greater running-related injury incidence and a decreased time to injury.
STUDY DESIGN
Cohort study; Level of evidence, 2.
METHODS
Military cadets wore an on-shoe wearable sensor that analyzed biomechanical variables of foot strike pattern, rate of impact, running pace, step rate, step length, and contact time during cadet basic training (60 days). Running-related injuries during cadet basic training were determined by medical record review. Personal and running variables between the injured and uninjured cadets were compared using independent tests and chi-square analyses. Time to injury and hazard ratios (HRs) were estimated using Kaplan-Meier survival curves and Cox proportional hazard regression models, respectively.
RESULTS
Of the 674 cadets who completed the study, 11% sustained a running-related injury. A significantly greater proportion of the injured participants were female (χ = 7.95; = .005) and had a prior history of injury (χ = 7.36; = .007). Univariate Cox proportional hazard regression models revealed greater injury risk in females (HR, 1.96; 95% CI, 1.22-3.16; = .005) and cadets with a prior injury history (HR, 1.86; 95% CI, 1.18-2.93; = .008). After adjusting Cox models for prior injury, females were found to be at a 1.89 times (95% CI, 1.17-3.04; = .009) greater risk of injury. Running biomechanical variables were not associated with injury risk.
CONCLUSION
Study results indicated that non-modifiable risk factors such as female sex and prior injury history increased the risk of running-related injury in cadets undergoing military training. Running biomechanical variables measured by the wearable sensor were not associated with injury in this study.
背景
跑步生物力学与业余跑步者和军事跑步者中与跑步相关损伤的发生有关。
目的/假设:本研究的目的是确定个人特征或跑步生物力学变量是否与接受训练的军校学员中与跑步相关的损伤发生率或受伤时间相关。研究假设后足着地模式、更大的撞击率或更低的步频与更高的与跑步相关的损伤发生率和更短的受伤时间有关。
研究设计
队列研究;证据等级,2级。
方法
军校学员在基础训练(60天)期间佩戴一种鞋上可穿戴传感器,该传感器可分析着地模式、撞击率、跑步速度、步频、步长和接触时间等生物力学变量。通过查阅医疗记录确定军校学员基础训练期间与跑步相关的损伤情况。使用独立t检验和卡方分析比较受伤学员和未受伤学员之间的个人和跑步变量。分别使用Kaplan-Meier生存曲线和Cox比例风险回归模型估计受伤时间和风险比(HR)。
结果
在完成研究的674名学员中,11%遭受了与跑步相关的损伤。受伤参与者中女性比例显著更高(χ² = 7.95;P = .005),且有既往受伤史(χ² = 7.36;P = .007)。单因素Cox比例风险回归模型显示女性受伤风险更高(HR,1.96;95%CI,1.22 - 3.16;P = .005),有既往受伤史的学员也是如此(HR,1.86;95%CI,1.18 - 2.93;P = .008)。在对既往受伤情况调整Cox模型后,发现女性受伤风险高1.89倍(95%CI,1.17 - 3.04;P = .009)。跑步生物力学变量与受伤风险无关。
结论
研究结果表明,女性性别和既往受伤史等不可改变的风险因素会增加接受军事训练学员中与跑步相关损伤的风险。本研究中,可穿戴传感器测量的跑步生物力学变量与损伤无关。
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