Comparison of Polyethylene Thickness and Constraint in Traditional and Robotic-Assisted Total Knee Arthroplasty.

Kansas journal of medicine Pub Date : 2025-08-15 eCollection Date: 2025-07-01 DOI:10.17161/kjm.vol18.23669

Levi W Kindel, Rosalee E Zackula, Audrey L Schotte, Shang-You Yang, Paul C Pappademos

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Abstract

Introduction: Thicker polyethylene inserts in total knee arthroplasty (TKA) may be associated with increased wear rates, a higher risk of implant failure, and the need for revision surgery. The authors of this study aimed to compare polyethylene insert thickness in robotic-assisted TKA versus conventional manual TKA.

Methods: The authors conducted a cross-sectional study on patients with end-stage primary knee osteoarthritis who underwent TKA by a single fellowship-trained orthopedic surgeon over a two-year period. Patients with post-traumatic or inflammatory arthropathy or those undergoing revision arthroplasty were excluded. Demographics, implant manufacturer and type, and polyethylene insert thickness were recorded in an electronic database. Bivariate analyses, including t-tests, Mann-Whitney U tests, and Fisher's exact tests were used to compare robotic-assisted and manual TKA procedures.

Results: Data from 222 patients were analyzed, with 111 in each group. The mean (standard deviation [SD]) age at surgery was similar between groups: 64.3 (8.2) years for robotic-assisted and 62.3 (8.8) years for the manual group (p = 0.398). Polyethylene insert thickness differed significantly: the median was 9 mm (range 9-13 mm) in the robotic-assisted group versus 11 mm (range 9-16 mm) in the manual group (p <0.001). The most frequently used thickness was 9 mm, used in 70.3% (78/111) of robotic-assisted cases compared to 34.2% (38/111) of manual cases (p <0.001).

Conclusions: Robotic-assisted TKA was associated with significantly thinner polyethylene inserts compared to manual TKA, suggesting more precise, bone-sparing femoral and tibial cuts. These findings may support the use of robotic-assisted techniques by orthopedic surgeons seeking to optimize implant positioning and longevity.

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传统和机器人辅助全膝关节置换术中聚乙烯厚度和约束的比较。

导言：全膝关节置换术（TKA）中较厚的聚乙烯假体可能会增加磨损率，增加假体失败的风险，并需要翻修手术。本研究的作者旨在比较机器人辅助TKA与传统手动TKA中聚乙烯插入物的厚度。方法：作者对终末期原发性膝骨关节炎患者进行了一项横断面研究，这些患者在两年多的时间里由一位接受过培训的骨科医生进行了全膝关节置换术。排除了创伤后或炎症性关节病患者或正在进行翻修关节置换术的患者。统计数据、植入物制造商和类型以及聚乙烯植入物厚度记录在电子数据库中。双变量分析，包括t检验、Mann-Whitney U检验和Fisher精确检验，用于比较机器人辅助和人工TKA程序。结果：222例患者资料分析，每组111例。两组手术时的平均（标准差[SD]）年龄相似：机器人辅助组为64.3（8.2）岁，手动组为62.3（8.8）岁（p = 0.398）。聚乙烯插入物厚度差异显著：机器人辅助组的中位数为9毫米（范围9-13毫米），而手动组的中位数为11毫米（范围9-16毫米）(p结论：与手动TKA相比，机器人辅助TKA与更薄的聚乙烯插入物相关，表明更精确，保留股骨和胫骨的切割。这些发现可能支持骨科医生使用机器人辅助技术来优化植入物的定位和寿命。

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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Kansas journal of medicine

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