Spine and lower body symmetry during treadmill walking in healthy individuals—In-vivo 3-dimensional kinematic analysis

Although it is relevant to understand spine and lower body motions in healthy individuals for a variety of applications, such as clinical diagnosis, implant design, and the analysis of treatment outcomes, proper assessment and characterization of normative gait symmetry in healthy individuals remain...

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Bibliographic Details
Published in:PloS one 2022-10, Vol.17 (10), p.e0275174-e0275174
Main Authors: Arauz, Paul Gonzalo, Garcia, Maria-Gabriela, Chiriboga, Patricio, Taco-Vasquez, Sebastian, Klaic, Diego, Verdesoto, Emilia, Martin, Bernard
Format: Article
Language:English
Subjects:
Analysis
Ankle
Asymmetry
Back pain
Biology and Life Sciences
Data collection
Dimensional analysis
Evaluation
Fitness equipment
Gait
Health aspects
In vivo methods and tests
Kinematics
Medicine and Health Sciences
Motion capture
Pelvis
Physical Sciences
Rotation
Spine
Spine (lumbar)
Symmetry
Symmetry (Biology)
Thorax
Treadmill exercise tests
Treadmills
Walking
Young adults
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Summary:Although it is relevant to understand spine and lower body motions in healthy individuals for a variety of applications, such as clinical diagnosis, implant design, and the analysis of treatment outcomes, proper assessment and characterization of normative gait symmetry in healthy individuals remains unclear. The purpose of this study was to investigate the in vivo 3-dimensional (3D) spine and lower body gait symmetry kinematics during treadmill walking in healthy individuals. Sixty healthy young adults (30 males and 30 females) were evaluated during normal and fast treadmill walking using a motion capture system approach. Statistical parametric mapping and the normalized symmetry index approaches were used to determine spine, pelvis, and lower body asymmetries during treadmill walking. The spine and pelvis angular motions associated with the left and right lower limb motions, as well as the left and right lower extremity joint angles were compared for normal and fast treadmill walking. The lower lumbar left-right rotation (5.74±0.04°) and hip internal rotation (5.33±0.18°) presented the largest degrees of asymmetry during normal treadmill. Upper lumbar left-right lateral flexion (1.48±0.14°) and knee flexion (2.98±0.13°) indicated the largest asymmetries and during fast treadmill walking. Few asymmetry patterns were similar between normal and fast treadmill walking, whereas others appeared either only during normal or fast treadmill walking in this cohort of participants. These findings could provide insights into better understanding gait asymmetry in healthy individuals, and use them as reference indicators in diagnosing and evaluating abnormal gait function.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0275174