生物力学、机械生物学和生物传输的系统方法。

IF 1.7 4区 医学 Q4 BIOPHYSICS
Shayn M Peirce-Cottler, Edward A Sander, Matthew B Fisher, Alix C Deymier, John F LaDisa, Grace O'Connell, David T Corr, Bumsoo Han, Anita Singh, Sara E Wilson, Victor K Lai, Alisa Morss Clyne
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引用次数: 0

摘要

人体是一系列相互作用的系统的集合,其规模从纳米到米不等。从系统角度进行的研究侧重于各部分如何协同工作,以实现跨空间尺度的变化,并进一步加深我们对系统如何运作和失效的理解。在此,我们重点介绍 2022 年夏季生物力学、生物工程和生物传输大会上展示的系统方法,涉及领域包括固体力学、流体力学、组织和细胞工程、生物传输、设计、动力学和康复以及生物力学教育。通过利用最先进的工具,系统方法对人类生物学产生了新的认识,最终可以设计出更明智的疗法和医疗设备,用于预防和治疗疾病,并采用针对每位患者进行独特优化的策略使患者康复。还可以设计教育方法来培养系统级思维的基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Systems Approach to Biomechanics, Mechanobiology, and Biotransport.

The human body represents a collection of interacting systems that range in scale from nanometers to meters. Investigations from a systems perspective focus on how the parts work together to enact changes across spatial scales, and further our understanding of how systems function and fail. Here, we highlight systems approaches presented at the 2022 Summer Biomechanics, Bio-engineering, and Biotransport Conference in the areas of solid mechanics; fluid mechanics; tissue and cellular engineering; biotransport; and design, dynamics, and rehabilitation; and biomechanics education. Systems approaches are yielding new insights into human biology by leveraging state-of-the-art tools, which could ultimately lead to more informed design of therapies and medical devices for preventing and treating disease as well as rehabilitating patients using strategies that are uniquely optimized for each patient. Educational approaches can also be designed to foster a foundation of systems-level thinking.

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来源期刊
CiteScore
3.40
自引率
5.90%
发文量
169
审稿时长
4-8 weeks
期刊介绍: Artificial Organs and Prostheses; Bioinstrumentation and Measurements; Bioheat Transfer; Biomaterials; Biomechanics; Bioprocess Engineering; Cellular Mechanics; Design and Control of Biological Systems; Physiological Systems.
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