经股假体对准装置的概念设计

IF 0.9 Q3 ENGINEERING, MULTIDISCIPLINARY
A. Vásquez, Julian Uribe Perez
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引用次数: 2

摘要

Amputación de miembros inferiores;Marcha, dispositivo de alineación;Ingeniería de diseño;摘要:下肢假肢的对准是假肢适应的重要步骤之一,因为它可以提供更大的舒适性和实现假肢的功能。假体错位会对患者造成严重后果,如步态不稳定和残肢负荷增加。假体系统的装配和对齐是一个高度主观的过程,主要依赖于假体医师的专业经验。本研究旨在设计一种低成本的经股下肢假体对准装置原型,用于假体静态对准时的临时使用。实施了概念设计方法。在SolidWorks中对装置进行建模,在Ansys中进行有限元分析,确定装置的机械阻力。在测试的材料中,CarbonFil表现出最好的性能,显示出3D打印对准装置原型的良好结果。应该考虑该装置大规模生产的可行性,以进一步降低其成本,并在世界范围内更多的假肢中心实施。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Conceptual design of an alignment device for transfemoral prosthesis
Amputación de miembros inferiores; marcha, dispositivo de alineación; ingeniería de diseño; impresión 3D ABSTRACT: The alignment of lower limb prosthesis is one of the most significant procedures for prosthetic adaptation since it allows greater comfort and fulfillment of the prosthesis function. Prosthetic misalignment can lead to severe consequences for the patient, such as gait instability and increased load on the residual limb. The fitting and alignment of the prosthetic system is a highly subjective procedure that relies mainly on the professional experience of the prosthetist. This study aims to design a prototype of a low-cost alignment device for lower transfemoral prosthesis to be used temporarily during the prosthesis static alignment. The conceptual design methodology was implemented. The device was modeled in SolidWorks, and the mechanical resistance of the device was determined in a finite element analysis in Ansys. Among the tested materials, CarbonFil exhibited the best behavior showing promising results for a 3D printed alignment device prototype. The viability of this device’s massive production should be considered to further reduce its cost and be implemented in a larger number of prosthetic centers worldwide.
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来源期刊
CiteScore
2.00
自引率
0.00%
发文量
27
审稿时长
2 months
期刊介绍: Revista Facultad de Ingenieria started in 1984 and is a publication of the School of Engineering at the University of Antioquia. The main objective of the journal is to promote and stimulate the publishing of national and international scientific research results. The journal publishes original articles, resulting from scientific research, experimental and or simulation studies in engineering sciences, technology, and similar disciplines (Electronics, Telecommunications, Bioengineering, Biotechnology, Electrical, Computer Science, Mechanical, Chemical, Environmental, Materials, Sanitary, Civil and Industrial Engineering). In exceptional cases, the journal will publish insightful articles related to current important subjects, or revision articles representing a significant contribution to the contextualization of the state of the art in a known relevant topic. Case reports will only be published when those cases are related to studies in which the validity of a methodology is being proven for the first time, or when a significant contribution to the knowledge of an unexplored system can be proven. All published articles have undergone a peer review process, carried out by experts recognized for their knowledge and contributions to the relevant field. To adapt the Journal to international standards and to promote the visibility of the published articles; and therefore, to have a greater impact in the global academic community, after November 1st 2013, the journal will accept only manuscripts written in English for reviewing and publication. Revista Facultad de Ingeniería –redin is entirely financed by University of Antioquia Since 2015, every article accepted for publication in the journal is assigned a DOI number.
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