在3和5 km/h两种不同速度下，北欧步行的脊柱运动学变化-一项试点研究。

IF 2.5 Q1 SPORT SCIENCES

Journal of Functional Morphology and Kinesiology Pub Date : 2025-08-28 DOI:10.3390/jfmk10030330

Ivan Ivanov, Assen Tchorbadjieff, Oleg Hristov, Petar Peev, Grigor Gutev, Stela Ivanova

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引用次数: 0

摘要

目的：本研究旨在量化60多岁身体健康的年轻男性（n = 20，年龄19-22岁）在训练路径上进行北欧步行与常规步行（RW）时脊柱运动学的变化。方法：对3 km/h和5 km/h两种步行速度进行分析。实验设置旨在通过五个运动学参数评估脊柱角旋转：脊柱上部、脊柱下部、胸椎区域、腰椎区域和骨盆。结果：从9个紧凑惯性传感器获取数据，并使用3D MioMotion IMU传感器分析系统进行运动分析。使用功能数据分析（FDA）统计检验检测所获得的循环生物力学参数的差异。结论：该研究的关键发现是，北欧步行显著改变了脊柱运动的角度运动学模式，因为与正常步行相比，北欧步行在所有五个测量参数上都显示出显著差异。值得注意的是，在脊柱上部和骨盆运动中观察到最明显的变化。此外，北欧步行增加了站立阶段的持续时间和速度：(1)在所有三个运动平面上显著增加了站立阶段的持续时间；（ii）在所有三个平面的姿态阶段显著增加速度。这些研究结果强调了北欧步行的生物力学、预防、治疗和康复潜力。

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Spine Kinematic Alterations in Nordic Walking Under Two Different Speeds of 3 and 5 km/h-A Pilot Study.

Objectives: The present study aimed to quantify changes in spinal kinematics during Nordic walking compared to regular walking (RW) for 60 s on a training path among physically fit young males (n = 20, aged 19-22 years).

Methods: Two walking speeds were analyzed: 3 km/h and 5 km/h. The experimental setup was designed to assess spinal angular rotations using five kinematic parameters: upper spine, lower spine, thoracic region, lumbar region, and pelvis.

Results: The data were acquired from 9 compact inertial sensors and the following motion analysis is carried out using 3D MioMotion IMU sensor's analysis system. The differences in the obtained cyclic biomechanical parameters were detected using functional data analysis (FDA) statistical tests.

Conclusions: The key finding of the study is that Nordic walking significantly alters the angular kinematic pattern of spinal movement as it revealed significant differences in all five measured parameters when compared to normal walking. Notably, the most pronounced changes were observed in the upper spine and pelvis motion. Additionally, Nordic walking increased stance phase duration and velocity: (i) significantly increased the duration of the stance phase in all three planes of motion; (ii) significantly increased the velocity during the stance phase across all three planes. These reported findings highlight the biomechanical, preventive, therapeutic, and rehabilitative potential of Nordic walking.

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来源期刊

Journal of Functional Morphology and Kinesiology Health Professions-Physical Therapy, Sports Therapy and Rehabilitation

CiteScore

4.20

自引率

0.00%

发文量

审稿时长

12 weeks