脑震荡会导致斑马鱼幼体出现习惯性缺失和疲劳这两种截然相反的感觉运动效应。

IF 4.1 Q1 CLINICAL NEUROLOGY
Brain communications Pub Date : 2024-11-13 eCollection Date: 2024-01-01 DOI:10.1093/braincomms/fcae407
Laura Köcher, Carolina Beppi, Marco Penner, Samuel Meyer, Stefan Yu Bögli, Dominik Straumann
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引用次数: 0

摘要

脑震荡或轻度脑外伤是由突然的机械力直接或通过惯性负载冲击大脑造成的。这会导致身体、行为和认知障碍。尽管脑震荡是一个重要的健康问题,但我们对最初的冲击力与随后的神经系统后果之间的关系并不十分了解。此前,我们在斑马鱼幼虫体内建立了脑震荡模型。在这里,我们利用线性减速进一步研究了斑马鱼幼虫不同严重程度的脑震荡。通过声学检测来监测幼体的感觉运动行为,我们发现由此产生的逃逸行为的不同参数会受到之前震荡伤害的冲击力的调节。为了研究习惯化表现和疲劳对逃逸反应行为的相对贡献,我们构建了一个神经计算模型。我们的研究结果表明,震荡撞击最初会影响适应能力,随着撞击力的增加,疲劳会被诱发。然后,疲劳会以相反的方式改变逃逸反应行为。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Concussion leads to opposing sensorimotor effects of habituation deficit and fatigue in zebrafish larvae.

Concussion, or mild traumatic brain injury, is caused by sudden mechanical forces impacting the brain either directly or through inertial loading. This can lead to physical, behavioural and cognitive impairments. Despite concussion being a significant health issue, our understanding of the relationship between initial impact force and the subsequent neurological consequences is not well understood. Previously, we established a model of concussion in zebrafish larvae. Here, we further investigate concussions of varying severities in zebrafish larvae using linear deceleration. Using an acoustic assay to monitor the larval sensorimotor behaviour, we found that different parameters of the resulting escape behaviour are modulated by the impact force of the preceding concussive insult. To investigate the relative contributions of habituation performance and fatigue on the escape response behaviour, we constructed a neurocomputational model. Our findings suggest that a concussive impact initially affects habituation performance at first and, as the impact force increases, fatigue is induced. Fatigue then alters the escape response behaviour in an opposing manner.

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CiteScore
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