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[骨锚式经皮植入物在下肢截肢者中假体组件的功能:生物力学方面]

[Function of prosthesis components in lower limb amputees with bone-anchored percutaneous implants : Biomechanical aspects].

作者信息

Blumentritt S

机构信息

ZHT Zentrum für Healthcare Technology, PFH Private Hochschule Göttingen, Robert-Koch-Straße 40, 37075, Göttingen, Deutschland.

出版信息

Unfallchirurg. 2017 May;120(5):385-394. doi: 10.1007/s00113-017-0334-1.

DOI:10.1007/s00113-017-0334-1
PMID:28280845
Abstract

BACKGROUND

Bone anchorage of an artificial limb has been proven to be an alternative intervention for amputees when prosthesis use is seriously reduced because of stump problems. Little is known about how prosthesis components interact with bone and joints and which potential the optimum use provides with respect to quality of treatment of leg amputees.

OBJECTIVE

Does osseointegration influence the motor activity of residual limbs differently compared with socket prostheses? How should prosthesis components be aligned? What type of prosthetic knee joints should be preferred in transfemoral amputees?

MATERIAL AND METHODS

Transfer of biomechanical knowledge of socket prosthetics to bone-anchored prostheses. Pilot studies with a limited number of amputees.

RESULTS

Force transmission at the interface between the prosthesis and residual limb stump is completely different for osseointegrated fixation and socket design; however, the number of muscles available for control remains unchanged. Because the iliotibial tract is missing, bending moments of the femur are expected to be greater. Prosthetic alignment is very critical for gait pattern and the basic rules seem to be the same as for socket design. The foot position determines the knee function for below-knee amputees. The position of the femur influences the gait pattern of above-knee amputees. The lowest risk of falls and best functional properties are shown by microprocessor controlled knee joints.

CONCLUSION

Osseointegrated leg prostheses have some biomechanical advantages over the socket design. Since rehabilitation quality is clearly affected the prosthetic alignment has to be done carefully and precisely. As a rule microprocessor controlled knee joints are indicated.

摘要

背景

当因残肢问题导致假肢使用严重受限,对于截肢者而言,骨锚定的人工肢体已被证实是一种替代干预措施。对于假肢组件如何与骨骼和关节相互作用,以及在治疗腿部截肢者方面,最佳使用方式具有哪些潜力,人们知之甚少。

目的

与传统接受腔假肢相比,骨整合对残肢的运动活动影响是否不同?假肢组件应如何对齐?对于大腿截肢者,应首选哪种类型的假肢膝关节?

材料与方法

将接受腔假肢的生物力学知识应用于骨锚定假肢。对少数截肢者进行初步研究。

结果

对于骨整合固定和接受腔设计,假肢与残肢残端之间界面的力传递完全不同;然而,可用于控制的肌肉数量保持不变。由于髂胫束缺失,预计股骨的弯矩会更大。假肢对线对于步态模式非常关键,基本规则似乎与接受腔设计相同。足部位置决定了膝下截肢者的膝关节功能。股骨位置影响膝上截肢者的步态模式。微处理器控制的膝关节跌倒风险最低,功能特性最佳。

结论

骨整合式下肢假肢相较于接受腔设计具有一些生物力学优势。由于康复质量明显受到影响,假肢对线必须谨慎且精确地进行。通常建议使用微处理器控制的膝关节。

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本文引用的文献

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[Endo-exo prostheses : Osseointegrated percutaneously channeled implants for rehabilitation after limb amputation].[内外侧假体:用于肢体截肢后康复的经皮穿通式骨整合植入物]
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Static load bearing exercises of individuals with transfemoral amputation fitted with an osseointegrated implant: Loading compliance.佩戴骨整合植入物的经股骨截肢个体的静态承重练习:负荷顺应性。
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Orthopade. 2015 Jun;44(6):419-25. doi: 10.1007/s00132-015-3117-9.
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Walking ability and quality of life in subjects with transfemoral amputation: a comparison of osseointegration with socket prostheses.下肢截肢患者的步行能力和生活质量:骨整合与接受腔假肢的比较。
Arch Phys Med Rehabil. 2013 Nov;94(11):2174-8. doi: 10.1016/j.apmr.2013.05.020. Epub 2013 Jun 14.
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Load on osseointegrated fixation of a transfemoral amputee during a fall: Determination of the time and duration of descent.经股骨截肢者跌倒时骨整合固定装置上的负荷:下降时间和持续时间的确定。
Prosthet Orthot Int. 2010 Dec;34(4):472-87. doi: 10.3109/03093646.2010.520057. Epub 2010 Oct 20.
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A comparative finite-element analysis of bone failure and load transfer of osseointegrated prostheses fixations.骨整合假体固定的骨失效和载荷传递的比较有限元分析。
Ann Biomed Eng. 2010 Jul;38(7):2418-27. doi: 10.1007/s10439-010-9966-9. Epub 2010 Mar 23.
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Load on osseointegrated fixation of a transfemoral amputee during a fall: loading, descent, impact and recovery analysis.经股骨截肢者跌倒时骨整合固定装置上的负荷:负荷、下降、冲击及恢复分析。
Prosthet Orthot Int. 2010 Mar;34(1):85-97. doi: 10.3109/03093640903585024.
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Comparison of nonmicroprocessor knee mechanism versus C-Leg on Prosthesis Evaluation Questionnaire, stumbles, falls, walking tests, stair descent, and knee preference.基于假肢评估问卷、绊倒情况、跌倒情况、步行测试、下楼梯及膝关节偏好,对非微处理器膝关节装置与C型腿进行比较。
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Monitoring of the load regime applied on the osseointegrated fixation of a trans-femoral amputee: a tool for evidence-based practice.监测应用于经股骨截肢者骨整合固定的负荷状态:循证实践的一种工具。
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