Yapp Liam Z, Robinson Patrick G, Clement Nicholas D, Scott Chloe E H
Department of Orthopaedics, Deanery of Clinical Sciences, University of Edinburgh, Chancellors Building, 49 Little France Crescent, Edinburgh, EH16 4SB, UK.
Department of Trauma & Orthopaedic Surgery, Royal Infirmary of Edinburgh, NHS Lothian, 51 Little France Crescent, Edinburgh, EH16 4SY, UK.
Curr Rev Musculoskelet Med. 2021 Dec;14(6):361-368. doi: 10.1007/s12178-021-09724-5. Epub 2021 Dec 28.
Soft tissue imbalance, presenting as instability or stiffness, is an important cause of revision total knee arthroplasty (TKA). Traditional methods of determining soft tissue balance of the knee lack precision and are not reliable between operators. Use of intra-operative pressure sensors offers the potential to identify and avoid soft tissue imbalance following TKA. This review aims to summarise the literature supporting the clinical indication for the use of intra-articular pressure sensors during TKA.
Analytical validation studies suggest that intra-operative pressure sensors demonstrate 'moderate' to 'good' intra-observer reliability and 'good' to 'excellent' interobserver reliability throughout the flexion arc. However, there are important errors associated with measurements when devices are used out-with the stated guidelines and clinicians should be aware of the limitations of these devices in isolation. Current evidence regarding patient benefit is conflicting. Despite positive early results, several prospective studies have subsequently failed to demonstrate significant differences in overall survival, satisfaction, and patient-reported outcome measures within 1 year of surgery. Surgeon-defined soft tissue stability appears to be significantly different from the absolute pressures measured by the intra-operative sensor. Whilst it could be argued that this confirms the need for intra-articular sensor guidance in TKA; the optimal 'target' balance remains unclear and the relationship with outcome in patients is not determined. Future research should (1) identify a suitable reference standard for comparison; (2) improve the accuracy of the sensor outputs; and (3) demonstrate that sensor-assisted TKA leads to patient benefit in patient-reported outcome measures and/or enhanced implant survival.
软组织失衡表现为不稳定或僵硬,是全膝关节置换术(TKA)翻修的重要原因。传统的确定膝关节软组织平衡的方法缺乏精确性,且不同术者之间不可靠。术中使用压力传感器有可能识别并避免TKA术后的软组织失衡。本综述旨在总结支持TKA术中使用关节内压力传感器的临床指征的文献。
分析性验证研究表明,术中压力传感器在整个屈曲弧度内显示出“中等”至“良好”的观察者内可靠性以及“良好”至“优秀”的观察者间可靠性。然而,当设备在规定指南之外使用时,测量会存在重要误差,临床医生应了解这些设备单独使用时的局限性。目前关于患者获益的证据存在矛盾。尽管早期结果积极,但随后的几项前瞻性研究未能证明在术后1年内总体生存率、满意度和患者报告的结局指标方面存在显著差异。外科医生定义的软组织稳定性似乎与术中传感器测量的绝对压力有显著差异。虽然可以认为这证实了TKA术中需要关节内传感器引导;但最佳的“目标”平衡仍不明确,且与患者结局的关系尚未确定。未来的研究应(1)确定合适的比较参考标准;(2)提高传感器输出的准确性;(3)证明传感器辅助TKA在患者报告的结局指标和/或提高植入物生存率方面给患者带来益处。