Can Robotic-Arm Assistance Decrease Iatrogenic Soft-Tissue Damage During Direct Anterior Total Hip Arthroplasty?

IF 0.8 Q4 SURGERY
Emily L Hampp, Melanie Caba, Laura Scholl, Ahmad Faizan, Benjamin M Frye, Joseph P Nessler, Sean B Sequeira, Michael A Mont
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引用次数: 0

Abstract

Introduction: Manual techniques for total hip arthroplasty (THA) have been widely utilized and proven to be clinically successful. However, the use of advanced computed tomography (CT) scan-based planning and haptically-bounded reamers in robotic-arm assisted total hip arthroplasty (RTHA) holds promise for potentially limiting surrounding soft-tissue damage. This cadaver-based study aimed to compare the extent of soft-tissue damage between a robotic-arm assisted, haptically-guided THA (RTHA) and a manual, fluoroscopic-guided THA (MTHA) direct anterior approach.

Materials and methods: There were six fresh-frozen torso-to-toe cadaver specimens included, with two surgeons each performing three RTHA and three MTHA procedures. One hip underwent an RTHA and the other hip received an MTHA in each cadaver. Postoperatively, one additional surgeon, blinded to the procedures, assessed and graded damage to nine key anatomical structures using a 1 to 4 grading scale: (1) complete soft-tissue preservation to <5% of damage; (2) 6 to 25% of damage; (3) 26 to 75% of damage; and (4) 76 to 100% of damage. Kruskal-Wallis hypothesis tests were used to compare soft-tissue damage between RTHA and MTHA cases and adjusted for ties.

Results: Pooled analysis of the gluteus minimus, sartorius, tensor fascia lata, and vastus lateralis muscle grades demonstrated that cadaver specimens who underwent RTHA underwent less damage to these structures than following MTHA (median, IQR: 1.0, 1.0 to 2.0 vs. 3.0, 2.0 to 3.0; p=0.003). Pooled analysis of the calculated volumetric damage (mm3) for the gluteus minimus, sartorius, tensor fascia lata, and vastus lateralis muscles demonstrated that the cadaver specimens that underwent RTHA underwent less damage to these structures than those that followed MTHA (median, IQR: 23, 2 to 586 vs. 216, 58 to 3,050; p=0.037).

Conclusion: This cadaver-based study suggests that utilizing RTHA may lead to reduced soft-tissue damage compared with MTHA, likely due to enhanced preoperative planning with robotic-arm assisted software, real-time intraoperative feedback, haptically-bounded reamer usage, reduced surgical steps, as well as ease of use with reaming. These findings should be carefully considered when evaluating the utilization of robotic-arm assisted THA in practice.

机器人手臂辅助能否减少直接前路全髋关节置换术中的先天性软组织损伤?
简介:人工全髋关节置换术(THA)已被广泛应用,并被证明在临床上是成功的。然而,在机器人手臂辅助的全髋关节置换术(RTHA)中使用先进的基于计算机断层扫描(CT)的规划和触觉边界铰刀有望限制周围软组织损伤。这项基于尸体的研究旨在比较机器人臂辅助、触觉引导的全髋关节置换术(RTHA)与人工、透视引导的全髋关节置换术(MTHA)直接前方入路的软组织损伤程度:共有六份从躯干到脚趾的新鲜冷冻尸体标本,由两名外科医生分别进行了三次 RTHA 和三次 MTHA 手术。每个尸体的一个髋关节接受了 RTHA,另一个髋关节接受了 MTHA。术后,另外一名外科医生对手术过程进行了盲法操作,采用 1 到 4 级的评分标准对九个关键解剖结构的损伤情况进行了评估和分级:(1)完全保留软组织;(2)完全保留软组织;(3)完全保留软组织;(4)完全保留软组织;(5)完全保留软组织:对臀小肌、沙提肌、筋膜张力肌和阔筋膜肌等级的汇总分析表明,与 MTHA 相比,接受 RTHA 的尸体标本对这些结构的损伤较小(中位数,IQR:1.0,1.0 至 2.0 vs. 3.0,2.0 至 3.0;P=0.003)。对臀小肌、artorius肌、筋膜张力肌和阔筋膜肌的计算损伤体积(mm3)进行的汇总分析表明,接受RTHA的尸体标本对这些结构的损伤小于接受MTHA的标本(中位数,IQR:23,2至586 vs. 216,58至3,050;p=0.037):这项基于尸体的研究表明,与MTHA相比,使用RTHA可能会减少软组织损伤,这可能是由于机器人手臂辅助软件增强了术前规划、实时术中反馈、触觉约束铰刀的使用、手术步骤的减少以及铰刀的易用性。在评估机器人手臂辅助 THA 的实际应用时,应仔细考虑这些研究结果。
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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