Affordance-Based Surgical Design Methods Considering Biomechanical Artifacts.

IF 1.8 3区心理学 Q3 PSYCHOLOGY, EXPERIMENTAL

Ecological Psychology Pub Date : 2021-01-01 Epub Date: 2020-07-21 DOI:10.1080/10407413.2020.1792782

Wangdo Kim, Duarte Araujo, Sean S Kohles, Sang-Gook Kim, Helard Henry Alvarez Sanchez

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引用次数: 0

Abstract

Surgical design in personalized medicine is often based on native anatomy, which may not accurately reflect the interaction between native musculoskeletal tissues and biomechanical artifacts. To overcome this problem, researchers have developed alternative methods based on affordance-based design. The design process can be viewed in terms of action possibilities provided by the (biological) environment. Here, we use the affordance-based approach to address possibilities for action offered by biomechanical artifacts. In anterior crucial ligament (ACL) reconstruction, the design goal is to avoid ligament impingement while optimizing the placement of the tibial tunnel. Although in the current rationale for tibial tunnel placement roof impingement is minimized to avoid a negative affordance, we show that tibial tunnel placement can rather aim to constrain the target bounds with respect to a positive affordance. We describe the steps for identifying the measurable invariants and provide a mathematical framework for the surgery affordances within the knee.

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基于亲和力的手术设计方法，考虑到生物力学假象。

个性化医疗中的手术设计通常基于原生解剖学，而原生解剖学可能无法准确反映原生肌肉骨骼组织与生物力学假体之间的相互作用。为了克服这一问题，研究人员开发了基于承受力设计的替代方法。设计过程可以从（生物）环境所提供的行动可能性的角度来看待。在这里，我们使用基于承受能力的方法来解决生物力学人工制品提供的行动可能性。在前关键韧带（ACL）重建中，设计目标是避免韧带撞击，同时优化胫骨隧道的位置。虽然目前的胫骨隧道放置原理是尽量减少顶端撞击，以避免负的承受能力，但我们的研究表明，胫骨隧道的放置可以以限制目标边界为目标，从而获得正的承受能力。我们描述了识别可测量不变因素的步骤，并提供了膝关节内手术承受能力的数学框架。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Ecological Psychology PSYCHOLOGY, EXPERIMENTAL-

CiteScore

3.30

自引率

10.50%

发文量

期刊介绍： This unique journal publishes original articles that contribute to the understanding of psychological and behavioral processes as they occur within the ecological constraints of animal-environment systems. It focuses on problems of perception, action, cognition, communication, learning, development, and evolution in all species, to the extent that those problems derive from a consideration of whole animal-environment systems, rather than animals or their environments in isolation from each other. Significant contributions may come from such diverse fields as human experimental psychology, developmental/social psychology, animal behavior, human factors, fine arts, communication, computer science, philosophy, physical education and therapy, speech and hearing, and vision research.