Mancino Fabio, Jones Christopher W, Benazzo Francesco, Singlitico Alessandro, Giuliani Alessandro, De Martino Ivan
Department of Orthopaedics, The Orthopaedic Research Foundation of Western Australia (ORFWA), Fiona Stanley Hospital, Perth, Western Australia, Australia.
Curtin University, Perth, Western Australia, Australia.
Orthop Res Rev. 2022 Oct 17;14:339-349. doi: 10.2147/ORR.S294369. eCollection 2022.
Robotic-assisted total knee arthroplasty (rTKA) has been developed to improve knee kinematics and functional outcomes, expedite recovery, and improve implants long-term survivorship. Robotic devices are classified into active, semi-active, and passive, based on their degree of freedom. Their capacity to provide increased accuracy in implants positioning with reduced radiographic outliers has been widely proved. However, these early advantages are yet to be associated with long-term survivorship. Moreover, multiple drawbacks are still encountered including a variable learning curve, increased setup and maintenance costs, and potential complications related to the surgical technique. Despite recent technologies applied to TKA have failed to prove substantial improvements, robotic-assisted surgery seems to be here to stay and revolutionize the field of TKA. To support its consistent usage on a daily basis, long-term results are still awaited, and further improvements are necessary to reduce the expenses related to it.
机器人辅助全膝关节置换术(rTKA)的研发旨在改善膝关节运动学和功能结果,加快康复进程,并提高植入物的长期生存率。根据自由度,机器人设备可分为主动型、半主动型和被动型。它们在减少影像学异常的情况下提高植入物定位准确性的能力已得到广泛证实。然而,这些早期优势尚未与长期生存率相关联。此外,仍然存在多个缺点,包括学习曲线不一、设置和维护成本增加以及与手术技术相关的潜在并发症。尽管应用于全膝关节置换术的最新技术未能证明有实质性改进,但机器人辅助手术似乎将持续存在并给全膝关节置换术领域带来变革。为了支持其在日常中的持续使用,仍需等待长期结果,并且有必要进一步改进以降低与之相关的费用。