'Consciousnessoids': clues and insights from human cerebral organoids for the study of consciousness.

IF 3.1 Q1 PSYCHOLOGY, BIOLOGICAL Neuroscience of Consciousness Pub Date : 2021-10-27 eCollection Date: 2021-01-01 DOI:10.1093/nc/niab029
Andrea Lavazza
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引用次数: 15

Abstract

Human cerebral organoids (HCOs) are an in vitro three-dimensional model of early neural development, aimed at modelling and understanding brain development and neurological disorders. In just a few years, there has been a rapid and considerable progress in the attempt to create a brain model capable of showcasing the structure and functions of the human brain. There are still strong limitations to address, including the absence of vascularization that makes it difficult to feed the central layers of organoids. Nevertheless, some important features of the nervous system have recently been observed: HCOs manifest electrical activity, are sensitive to light stimulation and are able to connect to a spinal cord by sending impulses that make a muscle contract. Recent data show that cortical organoid network development at 10 months resembles some preterm babies' electroencephalography (EEG) patterns. In the light of the fast pace of research in this field, one might consider the hypothesis that HCOs might become a living laboratory for studying the emergence of consciousness and investigating its mechanisms and neural correlates. HCOs could be also a benchmark for different neuroscientific theories of consciousness. In this paper, I propose some potential lines of research and offer some clues and insights so as to use HCOs in trying to unveil some puzzles concerning our conscious states. Finally, I consider some relevant ethical issues regarding this specific experimentation on HCOs and conclude that some of them could require strict regulation in this field.

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“意识实体”:人类大脑类器官对意识研究的线索和见解。
人类大脑类器官(HCOs)是一种早期神经发育的体外三维模型,旨在建模和理解大脑发育和神经疾病。在短短几年内,在试图创建一个能够展示人脑结构和功能的大脑模型方面取得了快速而可观的进展。仍有很大的局限性需要解决,包括缺乏血管化,这使得难以喂养类器官的中心层。然而,最近观察到了神经系统的一些重要特征:HCOs表现出电活动,对光刺激敏感,能够通过发送脉冲使肌肉收缩来连接脊髓。最近的数据显示,皮质类器官网络在10个月时的发育与一些早产儿的脑电图(EEG)模式相似。鉴于该领域的研究速度很快,人们可以考虑这样一种假设,即HCOs可能成为研究意识出现、研究其机制和神经相关性的活实验室。HCOs也可以作为不同的意识神经科学理论的基准。在这篇论文中,我提出了一些潜在的研究方向,并提供了一些线索和见解,以便利用HCOs来揭示一些关于我们意识状态的谜题。最后,我考虑了有关HCOs具体实验的一些相关伦理问题,并得出结论,其中一些可能需要在该领域进行严格监管。
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来源期刊
Neuroscience of Consciousness
Neuroscience of Consciousness Psychology-Clinical Psychology
CiteScore
6.90
自引率
2.40%
发文量
16
审稿时长
19 weeks
期刊最新文献
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