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首页> 外文期刊>Journal of prosthetics and orthotics: JPO >The Transradial Anatomically Contoured (TRAO Interface: Design Principles and Methodology
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The Transradial Anatomically Contoured (TRAO Interface: Design Principles and Methodology

机译:经radi骨解剖轮廓(TRAO接口:设计原理和方法

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摘要

Although there are many variations of the self-suspending transradial (below elbow) level interface, they generally can be divided into two styles: the Muenster-type and Northwestern University Supracondylar Suspension Technique designs. Variations of these styles often represent practitioner interpretation and an evolutionary process to enhance comfort, stability, and suspension. The Transradial Anatomically Contoured (TRAC) interface incorporates design elements from both the Muenster and Northwestern interfaces with more aggressive contouring of the anatomy to maximize load tolerant areas of the residual limb, as demonstrated by the radiologic analysis in this text. In the medial/lateral plane, the interface focuses the compression anterior and slightly inferior to the epicondyles, specifically about the radial head on the lateral aspect. In addition, on the anterior/posterior plane, suspension is achieved by precisely directed compression into the cubital fold and supra-olecranon region. A critical element in the successful design of the Transradial Anatomically Contoured interface is extensive anatomic contouring of the antecubital region. The combined effects of medial/lateral and anterior/posterior compression along with contouring of the musculoskeletal structure of the residuum allow enhanced comfort, suspension, and stability throughout an increased range of motion.
机译:尽管自悬trans骨(肘部以下)水平界面有很多变化,但它们通常可以分为两种样式:Muenster型和西北大学Su上悬吊技术设计。这些样式的变化通常代表从业者的诠释和增强舒适性,稳定性和悬挂性的进化过程。经radi骨解剖轮廓(TRAC)界面结合了明斯特(Muenster)和西北(Northwestern)界面的设计元素,具有更富侵略性的解剖轮廓,从而最大限度地增加了残余肢体的负荷耐受区域,这在本文的放射学分析中得到了证明。在内侧/外侧平面中,该界面将压缩集中在前and上,并略低于上con,特别是在外侧aspect骨头周围。此外,在前/后平面上,通过精确定向压缩进入肘和上鹰嘴区域可实现悬吊。经design动脉解剖轮廓接口的成功设计的关键要素是肘前区域的广泛解剖轮廓。内侧/外侧和前/后压缩的联合作用以及残骸的肌肉骨骼结构的轮廓在整个运动范围内都提高了舒适性,悬垂性和稳定性。

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