从翻修全踝关节置换术中汲取的教训:胫骨早期失败,距骨晚期失败(并再次失败)

Jensen K. Henry, Emily Teehan, Scott Ellis, Jonathan Deland, Constantine Demetracopoulos
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引用次数: 0

摘要

导言/目的:随着过去十年全踝关节置换术(TAR)的激增,预计足踝矫形外科医生将遇到的翻修次数也会相应增加。处理失败的初级 TAR 的挽救和植入选择也在不断增加。然而,现代有关翻修 TAR 术后存活率和疗效的文献相对有限。此外,人们对进一步翻修或翻修 TAR 失败的风险因素知之甚少。本研究旨在描述翻修TAR的时机和存活率。我们假设,胫骨侧的失败会在指数手术后更早发生,而翻修TAR失败后的二次翻修会更多地发生在距骨侧,而不是胫骨侧。方法:这是一项单一机构的回顾性队列研究,研究对象为至少随访两年的 TAR 患者(2012-2022 年)。研究纳入了任何植入物(Cadence、Inbone、Invision、Infinity、Salto、STAR、Vantage、Zimmer;或定制全距骨置换[TTR])的翻修TAR(定义为更换胫骨和/或距骨组件)。五名外科医生提供了患者。记录了人口统计学、初次手术和翻修手术数据以及术后并发症。记录了需要翻修的失败病因(胫骨失败、距骨失败、合并失败)和翻修后的最终结果(翻修后的TAR存活、再次翻修、转为融合、膝下截肢[BKA])。因假体周围关节感染(PJI)而进行的翻修和转为融合术的情况除外。共有59只脚踝因任何原因进行了翻修。剔除9例因PJI而进行的两阶段翻修和3例转为踝关节或胫骨踝关节融合术的病例后,共有47个接受翻修TAR的脚踝被纳入分析范围。采用卡方检验和方差分析比较失败的风险因素和时间。结果:共有 47 例翻修 TAR,平均年龄 60.6 岁(31-77 岁),平均体重指数 29.5 kg/m2,女性 19 例(40.4%),平均随访 3.5 年。因胫骨失败而进行的翻修(22 例)明显早于距骨失败(19 例,2.3 ± 1.7 年)或胫骨/距骨联合失败(6 例,2.9 ± 3.3 年)(P=0.048)(1.3 ± 0.5 年)。与距骨或合并胫骨/距骨失败的翻修相比,仅胫骨失败的翻修存活率(95.5%)明显更高:26%的距骨失败者和33%的胫骨/距骨联合失败者至少接受了一次翻修(P=0.033)。在距骨翻修失败的 7 例患者中,2 例最终接受了 BKA,2 例转为 TTR,2 例翻修为模块化骨干距骨植入物,1 例因 PJI 而接受了剥离和骨水泥垫片治疗。结论:该研究表明,TAR胫骨失败发生的时间早于距骨失败或胫骨/距骨联合失败。当孤立胫骨失败的患者同时接受胫骨和距骨组件的翻修时,他们在翻修后的存活率通常很高。然而,距骨失败和胫骨/距骨联合失败的翻修发生较晚,但破坏性更大:近三分之一的患者需要进行第二次翻修。考虑到距骨植入物下沉、骨坏死、骨量损失和有限的挽救选择等后果,这一点非常重要。随着TAR使用范围的扩大,必须开发种植体和手术策略,最大限度地提高翻修手术的成功率。翻修 TAR 后的失败流程图。PJI = 人工关节周围感染。TTC = 胫骨骨关节。BKA = 膝关节以下截肢。胫骨假体几何形状包括Low-pro = 低轮廓胫骨假体。Stem = 干式胫骨假体。Keel = 龙骨状胫骨假体。距骨植入物的几何形状包括:倒角/圆形和平截骨。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Lessons from Revision Total Ankle Replacement: Tibias Fail Early, and Taluses Fail Late (And Fail Again)
Introduction/Purpose: With the last decade’s surge in total ankle replacement (TAR), there is an anticipated commensurate increase in the number of revisions that orthopaedic foot and ankle surgeons will encounter. The salvage and implant options to deal with a failed primary TAR are expanding. However, the literature on survivorship and outcomes after revision TAR in the modern era is relatively limited. What’s more, little is known about the risk factors for further revision or failure of revision TAR. This study aimed to describe the timing to and survivorship after revision TAR. We hypothesized that tibial-sided failures would occur earlier after the index surgery, and secondary revisions after failure of revision TAR would occur more due to talar-sided failures than tibial-sided failures. Methods: This is a single-institution retrospective cohort study of TAR patients (2012-2022) with minimum 2-year follow-up. Revision TARs (defined as exchange of tibial and/or talar components) with any implant (Cadence, Inbone, Invision, Infinity, Salto, STAR, Vantage, Zimmer; or custom total talus replacement [TTR]) were included. Five surgeons contributed patients. Demographics, primary and revision surgical data, and postoperative complications were recorded. Etiology of failure necessitating revision (tibial failure, talus failure, combined failure) and ultimate outcomes after revision (revision TAR survived, additional revisions, conversion to fusion, below-knee-amputation [BKA]) were recorded. Revisions for periprosthetic joint infection (PJI) and conversions to fusion were excluded. There were 59 ankles that underwent revision for any cause. Excluding 9 2-stage revisions for PJI and 3 conversions to ankle or tibiotalocalcaneal fusion, there were 47 ankles that underwent revision TAR that were included for analysis. Chi-square and ANOVA tests were used to compare risk factors and timing for failure. Results: There were 47 revision TARs, with mean age 60.6 (range: 31-77) years, mean BMI 29.5 kg/m2, 19 (40.4%) females, and mean 3.5 years follow-up. Revisions for tibial failure (n=22) occurred significantly earlier (1.3 ± 0.5 years) than those for talus failure (n=19, 2.3 ± 1.7 years) or combined tibial/talus failure (n=6, 2.9 ± 3.3 years) (P=0.048). Revisions for tibial-only failure had significantly better survivorship (95.5%) than revisions for talus or combined tibia/talus failures: 26% of talus failures and 33% of combined tibia/talus failures underwent at least one more revision (P=0.033). Of the 7 failures after revision talus, 2 ultimately underwent BKA, 2 were converted to TTR, 2 were revised to modular stemmed talus implants, and 1 was treated with explant and cement spacer for PJI. Conclusion: This study demonstrates that TAR tibial failures occur earlier than talus failures or combined tibial/talus failures. When patients with isolated tibial failure undergo revision of both tibial and talar components, they usually do well with good survivorship post-revision. However, revisions for talar failures and combined tibial/talar failures occur later but are more devastating: nearly 1/3 go on to a second revision. This is important given the consequences of talar implant subsidence, bone necrosis, loss of bone stock, and limited salvage options. As TAR utilization expands, it is imperative to develop implants and surgical strategies to maximize success for revision surgery. Flowchart of failures after revision TAR. PJI = periprosthetic joint infection. TTC = tibiotalocalcaneal. BKA = below-knee amputation. Tibial implant geometry included: Low-pro = lowprofile tibial implant. Stem = stemmed tibial implant. Keel = keeled tibial implant. Talus implant geometry included: chamfer/round and flat-cuttalus.
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来源期刊
Foot & Ankle Orthopaedics
Foot & Ankle Orthopaedics Medicine-Orthopedics and Sports Medicine
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