构建骨结合假肢

IF 1 Q3 SURGERY
Haris Kafedzic, S. Rozbruch, Taylor J. Reif, J. Hoellwarth
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Preoperatively, as part of a multidisciplinary team approach, the prosthetist should assist in patient evaluation to determine suitability for osseointegration surgery. Postoperatively, when approved by the surgeon, the first step is to perform an implant inspection and to take patient measurements. A temporary loading implant is provided to allow the patient to start loading the limb. When the patient is approved for full-length leg to begin full weight-bearing, the implant and prosthetic quality are evaluated, including torque, implant position, bench alignment, static alignment in the standing position, and initial dynamic alignment. This surgical procedure also requires long-term, continued patient care and prosthetic maintenance. Alternatives: For patients who are dissatisfied with the use of a socket prosthesis, adjustments can often be made to improve the comfort, fit, and performance of the prosthesis. Non-osseointegration surgical options include bone lengthening and/or soft-tissue contouring. Rationale: Osseointegration can be provided for amputees who are expressing dissatisfaction with their socket prosthesis, and typically provides superior mobility and quality of life compared with nonoperative and other operative options3,4. Specific differences between the appropriate design and construction of osseointegrated prostheses versus socket prostheses include component selection, component fit, patient-prosthesis static and dynamic alignment, tolerances and accommodations, and also the expected long-term changes in patient joint mobility and behavior. Providing an osseointegrated prosthesis according to the principles appropriate for socket prostheses may often leave an osseointegrated patient improperly aligned and provoke maladaptive accommodations, hindering performance and potentially putting patients at unnecessary risk for injury. Expected Outcomes: Review articles describing the clinical outcomes of osseointegration consistently suggest that patients with osseointegrated prostheses have improved prosthesis wear time, mobility, and quality of life compared with patients with socket prostheses. Importantly, studies have shown that osseointegrated prostheses can be utilized in patients with short residual limbs that preclude the use of a socket prosthesis, allowing them to regain or retain function of the joint proximal to the short residuum5,6. Osseoperception improves patient confidence during mobility7. Because there is an open skin portal, low-grade soft-tissue infection can occur, which is usually treated with a short course of oral antibiotics. Much less often, soft-tissue debridement or implant removal may be needed to treat infection8. Periprosthetic fractures can nearly always be treated with familiar fracture fixation techniques and implant retention9,10. 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引用次数: 0

摘要

背景:构建骨结合义肢是手术植入骨结合义肢锚后对患者进行护理的必要后续阶段。外科医生植入骨锚定经皮植入体1,2,修复师安装假肢,然后将假肢固定在手术植入的锚定体上。骨结合手术通常适用于无法使用插座假肢或对使用插座假肢不满意的患者。说明:本视频文章介绍了为经股截肢者和经胫截肢者安装假肢的技术和原则,以及术后患者护理。术前,作为多学科团队方法的一部分,修复师应协助对患者进行评估,以确定是否适合进行骨结合手术。术后,经外科医生批准后,第一步是对种植体进行检查,并对患者进行测量。为患者提供临时加载种植体,使其能够开始加载肢体。当患者获准使用全长假肢开始完全负重时,将对假体和假肢质量进行评估,包括扭矩、假体位置、台架对位、站立位静态对位和初始动态对位。该手术还需要对患者进行长期、持续的护理和假体维护。替代方案:对于使用承插修复体不满意的患者,通常可以通过调整来改善修复体的舒适度、贴合度和性能。非骨结合手术方案包括骨延长和/或软组织塑形。理由:与非手术和其他手术方案相比,骨结合通常能提供更好的活动能力和生活质量3,4。骨结合假体与插座假体在设计和构造上的具体区别包括部件选择、部件配合、患者与假体的静态和动态对齐、公差和适应性,以及患者关节活动度和行为的预期长期变化。按照与承插式假体相适应的原则提供骨结合假体,往往会使骨结合患者对齐不当,并引发适应不良,从而妨碍其表现,并可能使患者面临不必要的受伤风险。预期成果:描述骨结合临床效果的综述文章一致表明,与使用插座假体的患者相比,骨结合假体患者的假体佩戴时间、活动能力和生活质量都有所提高。重要的是,研究表明,骨结合假体可用于残肢较短而无法使用插座假体的患者,使他们能够恢复或保留短残肢近端关节的功能5,6。骨感知提高了患者活动时的信心7。由于存在开放的皮肤入口,可能会发生低度软组织感染,通常只需口服短期抗生素即可治愈。更少情况下,可能需要进行软组织清创或移除假体来治疗感染8。假体周围骨折几乎总是可以通过熟悉的骨折固定技术和假体固定来治疗9,10。重要提示:跌倒可能导致假体周围骨折。错位会导致不必要的病理性关节力、软组织挛缩和适应性步态。不适当的精密部件会使患者的表现欠佳。睡觉时佩戴假肢可能会导致肢体受到旋转力,从而使软组织长期处于紧张状态。缩略语:QTFA = 经股动脉截肢者问卷 LD-SRS = 肢体畸形改良脊柱侧弯研究学会 PROMIS = 患者报告结果测量信息系统 EQ-5D = EuroQol 5 维度
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Constructing an Osseointegrated Prosthetic Leg
Background: Constructing an osseointegrated prosthetic leg is the necessary subsequent phase of care for patients following the surgical implantation of an osseointegrated prosthetic limb anchor. The surgeon implants the bone-anchored transcutaneous implant1,2 and the prosthetist constructs the prosthetic leg, which then attaches to the surgically implanted anchor. An osseointegration surgical procedure is usually considered in patients who are unable to use or are dissatisfied with the use of a socket prosthesis. Description: This present video article describes the techniques and principles involved in constructing a prosthetic leg for transfemoral and transtibial amputees, as well as postoperative patient care. Preoperatively, as part of a multidisciplinary team approach, the prosthetist should assist in patient evaluation to determine suitability for osseointegration surgery. Postoperatively, when approved by the surgeon, the first step is to perform an implant inspection and to take patient measurements. A temporary loading implant is provided to allow the patient to start loading the limb. When the patient is approved for full-length leg to begin full weight-bearing, the implant and prosthetic quality are evaluated, including torque, implant position, bench alignment, static alignment in the standing position, and initial dynamic alignment. This surgical procedure also requires long-term, continued patient care and prosthetic maintenance. Alternatives: For patients who are dissatisfied with the use of a socket prosthesis, adjustments can often be made to improve the comfort, fit, and performance of the prosthesis. Non-osseointegration surgical options include bone lengthening and/or soft-tissue contouring. Rationale: Osseointegration can be provided for amputees who are expressing dissatisfaction with their socket prosthesis, and typically provides superior mobility and quality of life compared with nonoperative and other operative options3,4. Specific differences between the appropriate design and construction of osseointegrated prostheses versus socket prostheses include component selection, component fit, patient-prosthesis static and dynamic alignment, tolerances and accommodations, and also the expected long-term changes in patient joint mobility and behavior. Providing an osseointegrated prosthesis according to the principles appropriate for socket prostheses may often leave an osseointegrated patient improperly aligned and provoke maladaptive accommodations, hindering performance and potentially putting patients at unnecessary risk for injury. Expected Outcomes: Review articles describing the clinical outcomes of osseointegration consistently suggest that patients with osseointegrated prostheses have improved prosthesis wear time, mobility, and quality of life compared with patients with socket prostheses. Importantly, studies have shown that osseointegrated prostheses can be utilized in patients with short residual limbs that preclude the use of a socket prosthesis, allowing them to regain or retain function of the joint proximal to the short residuum5,6. Osseoperception improves patient confidence during mobility7. Because there is an open skin portal, low-grade soft-tissue infection can occur, which is usually treated with a short course of oral antibiotics. Much less often, soft-tissue debridement or implant removal may be needed to treat infection8. Periprosthetic fractures can nearly always be treated with familiar fracture fixation techniques and implant retention9,10. Important Tips: Falls can lead to periprosthetic fractures. Malalignment can lead to unnecessary pathologic joint forces, soft-tissue contractures, and an accommodative gait. Inadequately sophisticated components can leave patients at a performance deficit. Wearing the prosthetic leg while sleeping may lead to rotational forces exerted on the limb, which may cause prolonged tension on the soft tissue. Acronyms and Abbreviations: QTFA = Questionnaire for Persons with a Transfemoral Amputation LD-SRS = Limb Deformity Modified Scoliosis Research Society PROMIS = Patient-Reported Outcomes Measurement Information System EQ-5D = EuroQol 5 Dimensions
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来源期刊
CiteScore
2.30
自引率
0.00%
发文量
22
期刊介绍: JBJS Essential Surgical Techniques (JBJS EST) is the premier journal describing how to perform orthopaedic surgical procedures, verified by evidence-based outcomes, vetted by peer review, while utilizing online delivery, imagery and video to optimize the educational experience, thereby enhancing patient care.
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