Biokinetic Evaluation of Hallux Valgus during Gait: A Systematic Review.

IF 2.4 2区 医学 Q2 ORTHOPEDICS
Dov Lagus Rosemberg, Jonathan A Gustafson, Glaucia Bordignon, Daniel D Bohl, Gustavo Leporace, Leonardo Metsavaht
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引用次数: 1

Abstract

Background: Foot pathologies can affect the kinetic chain during gait, leading to altered loading at other joints that can lead to subsequent pathologies. Although hallux valgus is the most common foot disease, little has been discussed about the biokinetic effects of hallux valgus on the foot and lower limb. This systematic review evaluated the kinematic, kinetic, and pedobarographic changes of the hallux valgus foot compared to a healthy one. Methods: Several electronic databases were searched up to January 2022, including only cross-sectional studies with clearly defined isolated hallux valgus diseases and healthy groups. Two investigators independently rated studies for methodological quality using the NIH Study Quality Assessment Tool for cross-sectional studies. Kinetic data were extracted, including temporal data, kinematics of the foot joint, kinematics of the proximal lower limb, and pedobarography. We did meta-analyses tests with a random effects model using the metafor package in R. Results: Hallux valgus patients walk slower compared to a disease-free control group −0.16 m/s (95% CI −0.27, −0.05). Hallux valgus patients exhibited significantly reduced coronal plane motion of the hindfoot-shank during preswing 1.16 degrees (95% CI 0.31, 2.00). Hallux valgus patients generated less force in the hallux region 33.48 N (95% CI 8.62, 58.35) but similar peak pressures in the hallux compared to controls. Hallux valgus patients generated less peak pressure at the medial and lateral hindfoot as compared to controls: 8.28 kPa (95% CI 2.92, 13.64) and 8.54 kPa (95% CI 3.55, 13.52), respectively. Conclusion: Although hallux valgus is a deformity of the forefoot, the kinematic changes due to the pathology are associated with significant changes in the range of motion at other joints, underscoring its importance in the kinetic chain. This is demonstrated again with the changes of peak pressure. Nevertheless, more high-quality studies are still needed to develop a fuller understanding of this pathology.
步态中拇外翻的生物动力学评价:系统综述。
背景:足部病变可影响步态过程中的运动链,导致其他关节负荷的改变,从而导致后续病变。虽然拇外翻是最常见的足部疾病,但很少有人讨论拇外翻对足部和下肢的生物动力学影响。本系统综述评估了拇外翻足与健康足的运动学、动力学和足学变化。方法:检索截至2022年1月的多个电子数据库,仅包括明确定义的孤立拇外翻疾病和健康人群的横断面研究。两位研究者使用美国国立卫生研究院横断面研究质量评估工具对研究的方法学质量进行了独立评级。提取动力学数据,包括时间数据、足关节运动学、下肢近端运动学和足造影。我们使用随机效应模型进行了meta分析试验。结果:与无疾病对照组相比,拇外翻患者行走速度慢-0.16 m/s (95% CI -0.27, -0.05)。拇外翻患者在按压1.16°时,后足胫的冠状面运动明显减少(95% CI 0.31, 2.00)。与对照组相比,外翻患者在拇区产生的压力较小,为33.48 N (95% CI 8.62, 58.35),但拇区峰值压力相似。与对照组相比,拇外翻患者后足内侧和外侧的峰值压力较小:分别为8.28 kPa (95% CI 2.92, 13.64)和8.54 kPa (95% CI 3.55, 13.52)。结论:虽然拇外翻是一种前足畸形,但由于病理引起的运动学变化与其他关节的运动范围的显著变化相关,强调了其在运动链中的重要性。峰值压力的变化再次证明了这一点。然而,仍然需要更多高质量的研究来更全面地了解这种病理。
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来源期刊
Foot & Ankle International
Foot & Ankle International 医学-整形外科
CiteScore
5.60
自引率
22.20%
发文量
144
审稿时长
2 months
期刊介绍: Foot & Ankle International (FAI), in publication since 1980, is the official journal of the American Orthopaedic Foot & Ankle Society (AOFAS). This monthly medical journal emphasizes surgical and medical management as it relates to the foot and ankle with a specific focus on reconstructive, trauma, and sports-related conditions utilizing the latest technological advances. FAI offers original, clinically oriented, peer-reviewed research articles presenting new approaches to foot and ankle pathology and treatment, current case reviews, and technique tips addressing the management of complex problems. This journal is an ideal resource for highly-trained orthopaedic foot and ankle specialists and allied health care providers. The journal’s Founding Editor, Melvin H. Jahss, MD (deceased), served from 1980-1988. He was followed by Kenneth A. Johnson, MD (deceased) from 1988-1993; Lowell D. Lutter, MD (deceased) from 1993-2004; and E. Greer Richardson, MD from 2005-2007. David B. Thordarson, MD, assumed the role of Editor-in-Chief in 2008. The journal focuses on the following areas of interest: • Surgery • Wound care • Bone healing • Pain management • In-office orthotic systems • Diabetes • Sports medicine
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