Association of MRI-based knee osteoarthritis structural phenotypes with short-term structural progression and subsequent total knee replacement.

IF 2.8 3区 医学 Q1 ORTHOPEDICS Journal of Orthopaedic Surgery and Research Pub Date : 2024-10-28 DOI:10.1186/s13018-024-05194-w
Yukang Liu, Zikai Xing, Baoer Wu, Ning Chen, Tianxing Wu, Zhuojian Cai, Donghong Guo, Gaochenzi Tao, Zikun Xie, Chengkai Wu, Peihua Cao, Xiaoshuai Wang, Jia Li
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Abstract

Background: The failure of disease-modifying osteoarthritis drugs (DMOADs) trials lies mainly in the heterogeneity of the disease, which calls for a more precise population with specific progression and outcomes. This study aimed to determine whether and which MRI-based structural phenotype of knee osteoarthritis (KOA) is associated with short-term structural progression and subsequent total knee replacement (TKR).

Methods: A longitudinal study was conducted among participants with baseline Kellgren-Lawrence grade (KLG) ≥ 2 from the Osteoarthritis Initiative (OAI). The structural phenotypes at baseline were defined as subchondral bone, meniscus/cartilage and inflammatory phenotypes according to the MRI Osteoarthritis Knee Score (MOAKS). The primary outcome was the progression of structural abnormalities within 24 months and multivariable logistic regressions were applied to evaluate the associations. The secondary outcome was the incidence of TKR during 108 months. Cox regressions and Kaplan-Meier survival curves were used for the analysis.

Results: A total of 733 participants with KOA were finally included in our study, with 493 (67.3%) having the three main structural phenotypes. For the primary outcome, the subchondral bone phenotype (OR [95% CI]:1.71 [1.02, 2.83], 1.52 [1.06, 2.18], 1.65 [1.11, 2.42], respectively) and the inflammatory phenotype (OR [95% CI]: 1.69 [1.05, 2.74], 1.82 [1.31, 2.52], 2.15 [1.48, 3.14], respectively) were both associated with the short-term progression of joint space narrowing, osteophytes and sclerosis in 24 months, whereas the meniscus/cartilage phenotype was only associated with the progression of osteophytes and sclerosis. For the secondary outcome, the subchondral bone phenotype (HR [95% CI]: 1.71 [1.06-2.78]) and inflammatory phenotype (HR [95%CI]: 2.00 [1.02-2.67]) were associated with shorter time to subsequent TKR, but not the meniscus/cartilage phenotype. Besides, the cumulative effect when the structural phenotype overlapped was confirmed in both outcomes.

Conclusions: The subchondral bone phenotype and inflammatory phenotype were associated with the progression of joint space narrowing, osteophytes and sclerosis in 24 months, along with subsequent TKR in 108 months. Besides, additive effects of overlapped phenotypes were further determined. These phenotypes could serve as valuable screening tools for future clinical trials and provide guidance for risk evaluation.

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基于核磁共振成像的膝关节骨关节炎结构表型与短期结构进展及后续全膝关节置换术的关系。
背景:改变病情的骨关节炎药物(DMOADs)试验的失败主要在于疾病的异质性,这就要求对具有特定进展和结果的人群进行更精确的研究。本研究旨在确定膝关节骨性关节炎(KOA)基于磁共振成像的结构表型是否与短期结构进展和随后的全膝关节置换术(TKR)相关,以及哪种表型与短期结构进展和随后的全膝关节置换术(TKR)相关:在骨关节炎倡议(OAI)中基线Kellgren-Lawrence分级(KLG)≥2的参与者中开展了一项纵向研究。根据磁共振成像骨关节炎膝关节评分(MOAKS),基线结构表型被定义为软骨下骨、半月板/软骨和炎症表型。主要结果是结构异常在 24 个月内的进展情况,并应用多变量逻辑回归评估相关性。次要结果是 108 个月内 TKR 的发生率。分析采用了 Cox 回归和 Kaplan-Meier 生存曲线:我们的研究最终纳入了 733 名 KOA 患者,其中 493 人(67.3%)具有三种主要结构表型。就主要结果而言,软骨下骨表型(OR [95% CI]:分别为 1.71 [1.02, 2.83]、1.52 [1.06, 2.18]、1.65 [1.11, 2.42])和炎症表型(OR [95% CI]:分别为 1.69 [1.05, 2.83]、1.52 [1.06, 2.18]、1.65 [1.11, 2.42炎症表型(OR [95% CI]:分别为 1.69 [1.05,2.74],1.82 [1.31,2.52],2.15 [1.48,3.14])均与 24 个月内关节间隙狭窄、骨质增生和硬化的短期进展有关,而半月板/软骨表型仅与骨质增生和硬化的进展有关。在次要结果中,软骨下骨表型(HR [95%CI]:1.71 [1.06-2.78])和炎症表型(HR [95%CI]:2.00 [1.02-2.67])与后续 TKR 的时间缩短有关,但与半月板/软骨表型无关。此外,结构表型重叠时的累积效应在两种结果中都得到了证实:结论:软骨下骨表型和炎症表型与24个月后关节间隙狭窄、骨质增生和硬化的进展以及108个月后的TKR相关。此外,还进一步确定了重叠表型的叠加效应。这些表型可作为未来临床试验的重要筛选工具,并为风险评估提供指导。
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来源期刊
CiteScore
4.10
自引率
7.70%
发文量
494
审稿时长
>12 weeks
期刊介绍: Journal of Orthopaedic Surgery and Research is an open access journal that encompasses all aspects of clinical and basic research studies related to musculoskeletal issues. Orthopaedic research is conducted at clinical and basic science levels. With the advancement of new technologies and the increasing expectation and demand from doctors and patients, we are witnessing an enormous growth in clinical orthopaedic research, particularly in the fields of traumatology, spinal surgery, joint replacement, sports medicine, musculoskeletal tumour management, hand microsurgery, foot and ankle surgery, paediatric orthopaedic, and orthopaedic rehabilitation. The involvement of basic science ranges from molecular, cellular, structural and functional perspectives to tissue engineering, gait analysis, automation and robotic surgery. Implant and biomaterial designs are new disciplines that complement clinical applications. JOSR encourages the publication of multidisciplinary research with collaboration amongst clinicians and scientists from different disciplines, which will be the trend in the coming decades.
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