模拟股直肌对屈曲负荷的被动和神经激活反应：一个有限元框架。

Modelling the passive and nerve activated response of the rectus femoris muscle to a flexion loading: a finite element framework.

作者信息

Fernandez J W, Buist M L, Nickerson D P, Hunter P J

机构信息

The Bioengineering Institute, Auckland University, New Zealand.

出版信息

Med Eng Phys. 2005 Dec;27(10):862-70. doi: 10.1016/j.medengphy.2005.03.009.

DOI:10.1016/j.medengphy.2005.03.009

PMID:15869895

Abstract

A muscle modelling framework is presented which relates the mechanical response of the rectus femoris muscle (at the organ level) to tissue level properties, with the capability of linking to the cellular level as part of the IUPS Physiome Project. This paper will outline our current approach to muscle modelling incorporating micro-structural passive and active properties including fibre orientations and nerve innervation. The technique is based on finite deformation (using FE analysis) coupled to electrical nerve initiated muscle activation, and we present the influence of active tension through an eccentric contraction at specific flexion angles. Finally we discuss the future goals of incorporating cell mechanics and validating at the organ level to provide a complete diagnostic tool with the ability to relate mechanisms of failure across spatial scales.

摘要

本文提出了一个肌肉建模框架，该框架将股直肌在器官水平的力学响应与组织水平特性相关联，并作为国际生理科学联合会（IUPS）生理组计划的一部分，具备与细胞水平相联系的能力。本文将概述我们目前进行肌肉建模的方法，该方法纳入了微观结构的被动和主动特性，包括纤维取向和神经支配。该技术基于有限变形（使用有限元分析）并结合电神经引发的肌肉激活，我们展示了在特定屈曲角度下通过离心收缩产生的主动张力的影响。最后，我们讨论了纳入细胞力学并在器官水平进行验证的未来目标，以提供一个完整的诊断工具，能够关联不同空间尺度上的失效机制。

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模拟股直肌对屈曲负荷的被动和神经激活反应：一个有限元框架。

Modelling the passive and nerve activated response of the rectus femoris muscle to a flexion loading: a finite element framework.

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