Differences in the stride time and lower limb joint angles and their variability during distance running between treadmill and over-ground: a crossover study.

IF 1.2 4区医学 Q3 SPORT SCIENCES Journal of Sports Medicine and Physical Fitness Pub Date : 2025-02-01 Epub Date: 2024-09-17 DOI:10.23736/S0022-4707.24.16120-8

Zaheen A Iqbal, Kevin Hung, Jialiang Gu, Daniel H Chow

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Abstract

Background: Treadmills have been used in laboratories to assess various measures related to walking and running. However, there has been some skepticism regarding their reliability as a representation of outdoor running. While marathon running has gained popularity as a form of physical activity, there have been few studies examining stride-to-stride variability after distance running, especially in relation to the duration and surface of running. This study compared stride time and lower limb joint angles during distance treadmill running and running over-ground. The hypothesis was that stride-to-stride variability would be influenced by running duration and surface, with greater variability observed during outdoor running.

Methods: Eleven runners participated in the study, running on a treadmill and over-ground for 31 minutes at their preferred speed. Inertial measurement units were used to measure stride time, total range of motion, and joint angles of the hip, knee, and ankle in different phases of the gait cycle in the sagittal plane movements. Mean and coefficient of variation of each parameter were compared between the initial and final 5 minutes of running on the treadmill and over-ground.

Results: There were no significant differences in stride time or its variability based on running duration or surface. However, mean and variability of certain lower limb joint angles were higher during outdoor running, supporting the hypothesis. Variability was higher in the initial duration of running as compared to final phase of running.

Conclusions: These findings suggest that treadmill may not fully reflect the dynamics of running over-ground. It is important to consider variability in gait analysis and research, as well as the potential impact on training and clinical practice.

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跑步机和地面长跑时步幅时间和下肢关节角度的差异及其变异性：一项交叉研究。

背景：实验室曾使用跑步机来评估与步行和跑步有关的各种指标。然而，有人对跑步机作为户外跑步代表的可靠性持怀疑态度。虽然马拉松跑作为一种体育活动形式已越来越受欢迎，但很少有研究对长跑后步幅间的变异性进行研究，尤其是与跑步的持续时间和表面有关的研究。本研究比较了跑步机长距离跑步和地面跑步时的步幅时间和下肢关节角度。研究假设跨步变异性会受到跑步持续时间和跑步表面的影响，在室外跑步时观察到的变异性更大：方法：11 名跑步者参加了研究，他们以自己喜欢的速度在跑步机上和地面上跑步 31 分钟。使用惯性测量装置测量矢状面运动中步态周期不同阶段的步幅时间、总运动范围以及髋关节、膝关节和踝关节的关节角度。比较了在跑步机上和地面上最初和最后 5 分钟跑步时各参数的平均值和变异系数：结果：跑步时间和地面对步幅时间及其变异性没有明显影响。然而，某些下肢关节角度的平均值和变异性在室外跑步时更高，这支持了假设。与跑步的最后阶段相比，跑步初期的变异性更高：这些发现表明，跑步机可能无法完全反映地面跑步的动态。在步态分析和研究中考虑变异性以及对训练和临床实践的潜在影响非常重要。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Sports Medicine and Physical Fitness 医学-运动科学

CiteScore

2.90

自引率

5.90%

发文量

393

审稿时长

6-12 weeks

期刊介绍： The Journal of Sports Medicine and Physical Fitness publishes scientific papers relating to the area of the applied physiology, preventive medicine, sports medicine and traumatology, sports psychology. Manuscripts may be submitted in the form of editorials, original articles, review articles, case reports, special articles, letters to the Editor and guidelines.