第二代高交联聚乙烯胫骨假体的氧化和损伤机制。

IF 3.4 2区 医学 Q1 ORTHOPEDICS Journal of Arthroplasty Pub Date : 2024-12-01 Epub Date: 2024-06-19 DOI:10.1016/j.arth.2024.06.032
Tabitha Derr, Daniel W MacDonald, Arthur L Malkani, Michael A Mont, Nicolas S Piuzzi, Steven M Kurtz
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引用次数: 0

摘要

简介:自 2005 年应用于临床以来,人们一直在研究顺序退火的高交联聚乙烯(SA HXLPE)是否可用于植入时间较短的取材;然而,目前还缺乏长期的跟踪研究。本研究的目的是对植入时间超过 5 年的 SA HXLPE 和传统伽马惰性灭菌(Gamma Inert)超高分子量聚乙烯胫骨假体的翻修原因、损坏机制和氧化指数(OI)进行研究和比较:作为多中心回收计划的一部分,共回收了 74 个植入时间超过 5 年(平均 7 ± 2 年)的全膝关节置换术(TKA)胫骨假体(46 个 SA HXLPE,28 个 Gamma Inerts)。44% 的 SA HXLPE 和 14% 的 Gamma Inerts 为椎体后凸植入体。从翻修手术记录中收集了患者因素和翻修原因。采用半定量评分法评估表面损伤机制。根据美国材料与试验协会 (ASTM) 2102 标准,使用傅立叶变换红外显微镜测量氧化情况。采用曼-惠特尼 U 检验法评估不同组群之间的差异:松动(伽马惰性:28 例中的 17 例,SA HXLPE:46 例中的 15 例)和不稳定(伽马惰性:28 例中的 6 例,SA HXLPE:46 例中的 15 例)是两个组群中最常见的修正原因。最常见的表面损伤机制是烧蚀、点蚀和划痕,其中髁部的烧蚀在伽马惰性成分中更常见(P = 0.022)。SA HXLPE 嵌体在关节面(P = 0.002)和前后(AP)面(P = 0.023)的平均氧化程度较高。在背面没有观察到差异(P = 0.060):结论:Gamma Inert和SA两组患者的翻修原因和表面损伤机制相似。还需要进一步研究,以继续评估 SA HXLPE 在较长的植入时间内(尤其是植入时间超过 10 年的植入物)的体内损伤和氧化作用(如果有的话)的临床意义。
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Oxidation and Damage Mechanisms of Second-Generation Highly Cross-Linked Polyethylene Tibial Inserts.

Background: After clinical introduction in 2005, sequentially annealed, highly cross-linked polyethylene (SA HXLPE) was studied for retrievals with short implantation times; however, long-term follow-ups are lacking. The objective of this study was to examine and compare the revision reasons, damage mechanisms, and oxidation indices of SA HXLPE and conventional gamma inert-sterilized (Gamma Inert) ultra-high-molecular-weight polyethylene tibial inserts implanted for >5 years.

Methods: There were 74 total knee arthroplasty tibial inserts (46 SA HXLPEs, 28 Gamma Inerts) implanted for >5 years (mean 7 ± 2 years) retrieved as part of a multicenter retrieval program. Cruciate-retaining implants comprised 44% of the SA HXLPEs and 14% of the Gamma Inerts. Patient factors and revision reasons were collected from revision operating notes. A semiquantitative scoring method was used to assess surface damage mechanisms. Oxidation was measured using Fourier transform infrared microscopy according to American Society for Testing and Materials 2102. Differences between cohorts were assessed with Mann-Whitney U-tests.

Results: Loosening (Gamma Inert: 17 of 28, SA HXLPE: 15 of 46) and instability (Gamma Inert: 6 of 28, SA HXLPE: 15 of 46) were the most common revision reasons for both cohorts. The most prevalent surface damage mechanisms were burnishing, pitting, and scratching, with burnishing of the condyles being higher in Gamma Inert components (P = .022). Mean oxidation was higher in the SA HXLPE inserts at the articulating surface (P = .002) and anterior-posterior faces (P = .023). No difference was observed at the backside surface (P = .060).

Conclusions: Revision reasons and surface damage mechanisms were comparable in the Gamma Inert and SA cohorts. Further studies are needed to continue to assess the in vivo damage and clinical relevance, if any, of oxidation in SA HXLPE over longer implantation times, particularly for implants implanted for more than 10 years.

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来源期刊
Journal of Arthroplasty
Journal of Arthroplasty 医学-整形外科
CiteScore
7.00
自引率
20.00%
发文量
734
审稿时长
48 days
期刊介绍: The Journal of Arthroplasty brings together the clinical and scientific foundations for joint replacement. This peer-reviewed journal publishes original research and manuscripts of the highest quality from all areas relating to joint replacement or the treatment of its complications, including those dealing with clinical series and experience, prosthetic design, biomechanics, biomaterials, metallurgy, biologic response to arthroplasty materials in vivo and in vitro.
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