Morphological changes to peripheral joints supporting thumb trapezial metacarpal osteoarthritis.

IF 2.4 3区医学 Q3 BIOPHYSICS

Journal of biomechanics Pub Date : 2025-02-01 Epub Date: 2025-01-07 DOI:10.1016/j.jbiomech.2025.112519

Faes D Kerkhof, Marco T Y Schneider, Tara Shelby, Arnold-Peter C Weiss, Douglas C Moore, Joseph J Crisco, Amy L Ladd

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Abstract

The present study aims to determine if morphological differences of the scaphoid, trapezoid, and second metacarpal are associated with thumb osteoarthritis by comparing three-dimensional bone models of healthy controls and osteoarthritis patients. Fifty-eight patients with moderate to severe thumb osteoarthritis (modified Eaton ≥ II) and 35 healthy controls from a larger completed investigation were examined. To quantify morphological variations, a statistical shape model was created that classified binary with respect to the Eaton grading system: non-osteoarthritis or moderate/severe osteoarthritis (II-IV). Three-dimensional surface models based on computed tomography images from the scaphoid, trapezoid, and second metacarpal were used to "train" the statistical shape model and yielded features that best explain variation within the three bones: the principal components These principal components were tested for significant differences between patient and control group. Additionally, a statistical shape model entailing all three bones was created. For the second metacarpal, only a single principal component was significantly associated with osteoarthritis (p = 0.035). The combined model utilizing all three bones, however, showed that with using one principal component of each of the bones, we could classify a sample as moderate/severe trapeziometacarpal osteoarthritis with an accuracy of 0.77. No individual shape components of the scaphoid or trapezoid significantly correlated to osteoarthritis. This study affirms that basilar thumb osteoarthritis is not limited to the trapeziometacarpal joint. Future studies investigating surrounding bones and joints as contributors to disease occurrence or progression will provide a more holistic insight into the prevention, diagnostic, and treatment of thumb osteoarthritis.

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支持拇指斜跖骨关节炎的外周关节形态学改变。

本研究旨在通过比较健康对照和骨关节炎患者的三维骨模型，确定舟状骨、梯形骨和第二掌骨的形态差异是否与拇指骨关节炎有关。58例中度至重度拇指骨关节炎患者（改良Eaton≥II）和35名健康对照者来自一项更大的已完成调查。为了量化形态学变化，创建了一个统计形状模型，根据伊顿分级系统对二元分类：非骨关节炎或中度/重度骨关节炎（II-IV）。基于舟状骨、梯形骨和第二掌骨的计算机断层扫描图像的三维表面模型被用来“训练”统计形状模型，并产生最能解释三块骨头内部变化的特征：主成分这些主成分在患者和对照组之间进行了显著差异测试。此外，还创建了包含所有三个骨骼的统计形状模型。对于第二掌骨，只有一个主成分与骨关节炎显著相关（p = 0.035）。然而，利用所有三个骨骼的组合模型表明，使用每个骨骼的一个主成分，我们可以将样本分类为中度/重度斜跖骨关节炎，准确率为0.77。没有舟状骨或梯形的单个形状成分与骨关节炎显著相关。本研究证实，拇指基底骨关节炎并不局限于掌方关节。未来研究周围骨骼和关节对疾病发生或进展的影响，将为拇指骨关节炎的预防、诊断和治疗提供更全面的见解。

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 biomechanics 生物-工程：生物医学

CiteScore

5.10

自引率

4.20%

发文量

345

审稿时长

1 months

期刊介绍： The Journal of Biomechanics publishes reports of original and substantial findings using the principles of mechanics to explore biological problems. Analytical, as well as experimental papers may be submitted, and the journal accepts original articles, surveys and perspective articles (usually by Editorial invitation only), book reviews and letters to the Editor. The criteria for acceptance of manuscripts include excellence, novelty, significance, clarity, conciseness and interest to the readership. Papers published in the journal may cover a wide range of topics in biomechanics, including, but not limited to: -Fundamental Topics - Biomechanics of the musculoskeletal, cardiovascular, and respiratory systems, mechanics of hard and soft tissues, biofluid mechanics, mechanics of prostheses and implant-tissue interfaces, mechanics of cells. -Cardiovascular and Respiratory Biomechanics - Mechanics of blood-flow, air-flow, mechanics of the soft tissues, flow-tissue or flow-prosthesis interactions. -Cell Biomechanics - Biomechanic analyses of cells, membranes and sub-cellular structures; the relationship of the mechanical environment to cell and tissue response. -Dental Biomechanics - Design and analysis of dental tissues and prostheses, mechanics of chewing. -Functional Tissue Engineering - The role of biomechanical factors in engineered tissue replacements and regenerative medicine. -Injury Biomechanics - Mechanics of impact and trauma, dynamics of man-machine interaction. -Molecular Biomechanics - Mechanical analyses of biomolecules. -Orthopedic Biomechanics - Mechanics of fracture and fracture fixation, mechanics of implants and implant fixation, mechanics of bones and joints, wear of natural and artificial joints. -Rehabilitation Biomechanics - Analyses of gait, mechanics of prosthetics and orthotics. -Sports Biomechanics - Mechanical analyses of sports performance.