What is the clinical utility of acoustic and vibrational analyses in uncemented total hip arthroplasty?

IF 2.3 4区医学 Q2 ORTHOPEDICS

Arthroplasty Pub Date : 2024-12-03 DOI:10.1186/s42836-024-00280-0

Shlok Patel, Christian J Hecht, Yasuhiro Homma, Atul F Kamath

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引用次数: 0

Abstract

Background: Despite recent developments in THA, a more objective method is needed to assist orthopedic surgeons in identifying the insertion endpoint of the broaching procedure. Therefore, this systematic review evaluated the in-vivo efficacy of various acoustic and vibration analyses in detecting proper implant seating, identifying intraoperative complications, and quantifying the accuracy of predictive modeling using acoustics.

Methods: Four electronic databases were searched on July 23rd, 2023, to retrieve articles evaluating the use of acoustic analysis during THA. The search identified 835 unique articles, which were subsequently screened by two independent reviewers as per our inclusion and exclusion criteria. In total, 12 studies evaluating 580 THAs were found to satisfy our criteria and were included in this review.

Results: Methodologically, analyses have suggested stopping broaching when consecutive blows emit similar acoustic profiles (maximum peak frequency ± 0.5 kHz), which indicates proper implant seating in terms of stability and mitigates subsidence. Also, abrupt large deviations from the typical progression of acoustic signals while broaching are indicative of an intraoperative fracture. Since height, weight, femoral morphological parameters, and implant type have been shown to alter acoustic emissions while hammering, incorporating these factors into models to predict subsidence or intraoperative fracture yielded virtually 100% accuracy in identifying these adverse events.

Conclusion: These findings support that acoustic analyses during THA show promise as an accurate, objective, and non-invasive method to predict and detect proper implant fixation as well as to identify intraoperative fractures.

Trial registration: PROSPERO registration of the study protocol: CRD42023447889, 23 July 2023.

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声学和振动分析在非骨水泥全髋关节置换术中的临床应用是什么？

背景：尽管THA最近有了发展，但仍需要一种更客观的方法来帮助骨科医生确定拉拔手术的插入终点。因此，本系统综述评估了各种声学和振动分析在检测植入物合适位置、识别术中并发症以及量化声学预测建模准确性方面的体内功效。方法：于2023年7月23日检索4个电子数据库，检索评价全髋关节置换术中声学分析应用的文章。搜索确定了835篇独特的文章，随后由两位独立审稿人根据我们的纳入和排除标准对其进行筛选。总共有12项研究评估了580个tha，符合我们的标准，并被纳入本综述。结果：在方法上，分析表明，当连续的打击发出相似的声学剖面（最大峰值频率±0.5 kHz）时，应停止拉削，这表明在稳定性和减轻下沉方面，种植体应适当放置。此外，在拉削过程中，与典型声信号进展的突然大偏差表明术中骨折。由于身高、体重、股骨形态参数和植入物类型会改变锤击时的声发射，因此将这些因素纳入预测下沉或术中骨折的模型中，几乎可以100%准确地识别这些不良事件。结论：这些发现支持THA期间的声学分析有望作为一种准确、客观、无创的方法来预测和检测正确的植入物固定以及识别术中骨折。试验注册：研究方案的PROSPERO注册：CRD42023447889, 2023年7月23日。

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