用于对机械感受器进行微调的信息预处理机制。

Mechanics to pre-process information for the fine tuning of mechanoreceptors.

作者信息

Barth Friedrich G

机构信息

Department of Neurobiology, Faculty of Life Sciences, University of Vienna, Althanstr.14, 1090, Vienna, Austria.

出版信息

J Comp Physiol A Neuroethol Sens Neural Behav Physiol. 2019 Oct;205(5):661-686. doi: 10.1007/s00359-019-01355-z. Epub 2019 Jul 3.

DOI:10.1007/s00359-019-01355-z

PMID:31270587

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6726712/

Abstract

Non-nervous auxiliary structures play a significant role in sensory biology. They filter the stimulus and transform it in a way that fits the animal's needs, thereby contributing to the avoidance of the central nervous system's overload with meaningless stimuli and a corresponding processing task. The present review deals with mechanoreceptors mainly of invertebrates and some remarkable recent findings stressing the role of mechanics as an important source of sensor adaptedness, outstanding performance, and diversity. Instead of organizing the review along the types of stimulus energy (force) taken up by the sensors, processes associated with a few basic and seemingly simple mechanical principles like lever systems, viscoelasticity, resonance, traveling waves, and impedance matching are taken as the guideline. As will be seen, nature makes surprisingly competent use of such "simple mechanics".

摘要

非神经辅助结构在感觉生物学中发挥着重要作用。它们过滤刺激并以符合动物需求的方式对其进行转换，从而有助于避免中枢神经系统因无意义的刺激和相应的处理任务而过载。本综述主要涉及无脊椎动物的机械感受器以及一些近期的显著发现，这些发现强调了力学作为传感器适应性、卓越性能和多样性的重要来源的作用。本综述不是按照传感器所吸收的刺激能量（力）类型来组织，而是以与一些基本且看似简单的力学原理（如杠杆系统、粘弹性、共振、行波和阻抗匹配）相关的过程为指导原则。正如我们将看到的，大自然对这种“简单力学”的运用惊人地出色。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cf1c/6726712/8c0d7621eeab/359_2019_1355_Fig1_HTML.jpg

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用于对机械感受器进行微调的信息预处理机制。

Mechanics to pre-process information for the fine tuning of mechanoreceptors.

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