Tactile stimuli from amniotic fluid guides the development of somatosensory cortex with hierarchical structure using human fetus simulation

2013 IEEE Third Joint International Conference on Development and Learning and Epigenetic Robotics (ICDL) Pub Date : 2013-11-04 DOI:10.1109/DEVLRN.2013.6652530

R. Sasaki, Yasunori Yamada, Yuki Tsukahara, Y. Kuniyoshi

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引用次数: 31

Abstract

This paper describes the environmental factor for structuring somatosensory cortex model in fetus. Previous studies showed that somatosensory cortex could develop through interactions with body and environment. However, it remains unclear how the somatosensory develops through environmental interactions, especially what environments contribute to the development. To verify the environment, we applied computer simulations to emulate tactile stimuli of fetus as input for a learning model of proposed somatosensory cortex model. First, we verified proposed somatosensory cortex model is plausible for biological properties And then, we verified the important factor of uterine environment to organize the somatosensory cortex. In result, somatosensory cortex could not be organized well without amnionic fluid. Our results show that fluid resistance derived from aminionic fluid contributed to develop fetus somatosensory cortex in uterine evironment.

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利用人胎模拟技术研究羊水触觉刺激对分层结构体感觉皮层发育的影响

本文阐述了构建胎儿体感觉皮层模型的环境因素。以往的研究表明，体感皮层可以通过与身体和环境的相互作用而发展。然而，身体感觉是如何通过环境的相互作用而发展的，特别是环境对这种发展的贡献尚不清楚。为了验证环境的有效性，我们利用计算机模拟胎儿的触觉刺激作为输入，建立了躯体感觉皮层模型的学习模型。首先，我们验证了所提出的体感皮层模型在生物学特性上的合理性，然后，我们验证了子宫环境对体感皮层组织的重要影响因素。结果，没有羊水，躯体感觉皮层不能很好地组织。我们的研究结果表明，子宫环境下，由氨基酸液产生的液体阻力对胎儿体感觉皮层的发育有一定的促进作用。

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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2013 IEEE Third Joint International Conference on Development and Learning and Epigenetic Robotics (ICDL)

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