轻度至中度髋关节骨关节炎和髋关节支具在步行时90°转弯时影响髋关节和膝关节生物力学。

IF 1.4 3区医学 Q4 ENGINEERING, BIOMEDICAL

Clinical Biomechanics Pub Date : 2025-02-01 DOI:10.1016/j.clinbiomech.2024.106420

Hannah Steingrebe , Stefan Sell , Thorsten Stein

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引用次数: 0

摘要

背景：在日常生活中经常遇到转弯动作，比直走需要更多的前部和横向髋关节活动。因此，在评估髋关节骨关节炎患者的保守治疗方法时，对转向的分析可能是一个有见地的补充。研究目的是量化轻度至中度症状性髋关节骨关节炎对下体转动生物力学的影响，并评估髋关节支具在该队列中的效果。方法：对21例髋关节骨性关节炎患者和21例健康对照者进行90°踏步和旋转旋转的生物力学分析（病例对照研究），并对髋关节骨性关节炎患者进行髋关节支具效果的干预研究。采用独立样本t检验或单向重复测量方差分析比较髋关节和膝关节的运动学和动力学。结果：髋关节骨性关节炎患者在转弯时髋关节伸展高峰和髋矢状和横向活动范围减小。在旋转旋转过程中发现髋内收和髋前侧活动范围减小。支撑增加了转弯开始时的运动速度，限制了两次转弯时髋的横向运动范围，但增加了旋转转弯时的膝关节内收峰和内旋力矩。解释：髋关节骨性关节炎患者在所有运动平面90°旋转时髋关节运动学改变。在临床运动分析中纳入它们可能有助于在疾病早期发现运动缺陷。支撑在不增加髋关节负荷的情况下提高了转弯开始时的运动速度，减少了髋关节横向运动范围，避免了运动范围终点的痛苦到达。

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Mild-to-moderate hip osteoarthritis and hip bracing influence hip and knee biomechanics during 90° turns while walking

Background

Turning movements are frequently encountered during daily life and require more frontal and transverse hip mobility than straight walking. Thus, analysis of turning might be an insightful addition in the evaluation of conservative treatment approaches for hip osteoarthritis patients. The study objective was to quantify the effects of mild-to-moderate symptomatic hip osteoarthritis on lower-body turning biomechanics and evaluate the effects of hip bracing in this cohort.

Methods

Biomechanical analysis of 90° step and spin turns in 21 persons with hip osteoarthritis and 21 healthy controls (case-control-study) and intervention study on the effects of hip bracing in hip osteoarthritis participants. Hip and knee kinematics and dynamics were compared using independent sample t-tests or one-way repeated measure ANOVAs.

Findings

Persons with hip osteoarthritis have reduced peak hip extension and sagittal and transverse hip range of motion during turning. During the spin turn reduced hip adduction and frontal hip range of motion were found. Bracing increased the movement velocity at turn initiation and limited the transverse hip range of motion during both turns but increased knee peak adduction and internal rotation moments during spin turns.

Interpretation

Persons with hip osteoarthritis present altered hip kinematics during 90° spin turns in all movement planes. Their inclusion during clinical movement analysis might facilitate the detection of mobility deficits at an early disease stage. Bracing led to higher movement velocity at turn initiation without increasing load at the hip joint and reduced transverse hip range of motion, avoiding the painful reaching of range of motion endpoints.

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来源期刊

Clinical Biomechanics 医学-工程：生物医学

CiteScore

3.30

自引率

5.60%

发文量

189

审稿时长

12.3 weeks

期刊介绍： Clinical Biomechanics is an international multidisciplinary journal of biomechanics with a focus on medical and clinical applications of new knowledge in the field. The science of biomechanics helps explain the causes of cell, tissue, organ and body system disorders, and supports clinicians in the diagnosis, prognosis and evaluation of treatment methods and technologies. Clinical Biomechanics aims to strengthen the links between laboratory and clinic by publishing cutting-edge biomechanics research which helps to explain the causes of injury and disease, and which provides evidence contributing to improved clinical management. A rigorous peer review system is employed and every attempt is made to process and publish top-quality papers promptly. Clinical Biomechanics explores all facets of body system, organ, tissue and cell biomechanics, with an emphasis on medical and clinical applications of the basic science aspects. The role of basic science is therefore recognized in a medical or clinical context. The readership of the journal closely reflects its multi-disciplinary contents, being a balance of scientists, engineers and clinicians. The contents are in the form of research papers, brief reports, review papers and correspondence, whilst special interest issues and supplements are published from time to time. Disciplines covered include biomechanics and mechanobiology at all scales, bioengineering and use of tissue engineering and biomaterials for clinical applications, biophysics, as well as biomechanical aspects of medical robotics, ergonomics, physical and occupational therapeutics and rehabilitation.