骨科手术中的智能植入物,改善患者预后:综述。

Innovation and entrepreneurship in health Pub Date : 2018-01-01 Epub Date: 2018-08-29 DOI:10.2147/IEH.S133518
Eric H Ledet, Benjamin Liddle, Katerina Kradinova, Sara Harper
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引用次数: 71

摘要

智能植入物是一种植入式设备,不仅提供治疗效果,还具有诊断能力。将智能植入物整合到日常临床实践中,有可能为医疗保健系统节省大量成本。智能骨科植入物的应用已被确定为膝关节置换术、髋关节置换术、脊柱融合、骨折固定等。迄今为止,智能骨科植入物已被用于测量身体内部的物理参数,包括压力、力、应变、位移、接近度和温度。物理刺激的测量是通过与植入物集成特定应用技术来实现的。来自智能植入物的数据导致了植入物设计、手术技术和术后护理和康复策略的改进。尽管经过数十年的研究,除了极少数例外,智能植入物尚未成为日常临床实践的一部分。这主要是因为当前传感器技术的集成需要对植入物进行重大修改。虽然在过去的几十年里,智能植入物的基础技术已经显著成熟,但在智能植入物成为主流医疗保健的一部分之前,仍有重大的技术挑战需要克服。下一代智能植入物的传感器将是小、简单、坚固和廉价的,并且几乎不需要对现有植入物设计进行修改。随着技术的快速发展,智能植入物的广泛应用即将到来。新的传感器技术可以最大限度地减少对现有植入物的修改,这是使智能植入物进入日常临床实践的关键。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Smart implants in orthopedic surgery, improving patient outcomes: a review.

Smart implants in orthopedic surgery, improving patient outcomes: a review.

Smart implants in orthopedic surgery, improving patient outcomes: a review.

Smart implants in orthopedic surgery, improving patient outcomes: a review.

Smart implants are implantable devices that provide not only therapeutic benefits but also have diagnostic capabilities. The integration of smart implants into daily clinical practice has the potential for massive cost savings to the health care system. Applications for smart orthopedic implants have been identified for knee arthroplasty, hip arthroplasty, spine fusion, fracture fixation and others. To date, smart orthopedic implants have been used to measure physical parameters from inside the body, including pressure, force, strain, displacement, proximity and temperature. The measurement of physical stimuli is achieved through integration of application-specific technology with the implant. Data from smart implants have led to refinements in implant design, surgical technique and strategies for postoperative care and rehabilitation. In spite of decades of research, with very few exceptions, smart implants have not yet become a part of daily clinical practice. This is largely because integration of current sensor technology necessitates significant modification to the implants. While the technology underlying smart implants has matured significantly over the last several decades, there are still significant technical challenges that need to be overcome before smart implants become part of mainstream health care. Sensors for next-generation smart implants will be small, simple, robust and inexpensive and will necessitate little to no modification to existing implant designs. With rapidly advancing technology, the widespread implementation of smart implants is near. New sensor technology that minimizes modifications to existing implants is the key to enabling smart implants into daily clinical practice.

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