听觉和视觉皮层在小鼠感觉检测中的不同作用。

Pub Date : 2022-05-11 DOI:10.5802/crbiol.72
Sebastian Ceballo, Thomas Deneux, Mariana Siliceo, Brice Bathellier
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引用次数: 0

摘要

感觉皮层包含了大脑皮层中接收初级感觉输入的区域,对人类有意识的感觉感知至关重要。然而,某些形式的感知在没有感觉皮层的情况下也是可能的。例如,在动物模型中,声音检测与简单行为的关联抵制了听觉皮层的失活。相比之下,在视觉或体感皮层进行的训练后失活实验产生了更强的效果。在这里,我们表明,在相同的检测方案中,视觉或听觉皮层的muscimol失活会暂时消除视觉而不是听觉检测。我们还观察到,大脑皮层依赖与较长的反应时间相关。这表明,听觉皮层比其他主要感觉区域更容易被其他回路绕过,以检测刺激,这可能是由于听觉和视觉联系之间的时间差异。
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Differential roles of auditory and visual cortex for sensory detection in mice.

Sensory cortex encompasses the regions of the cerebral cortex that receive primary sensory inputs and is crucial for conscious sensory perception in humans. Yet, some forms of perception are possible without sensory cortex. For example in animal models, the association of a sound detection to a simple behavior resists to the inactivation of auditory cortex. In contrast, post-training inactivation experiments conducted in visual or somatosensory cortex led to much stronger effects. Here we show that muscimol inactivation of visual or auditory cortex in the same detection protocol transiently abolishes visual but not auditory detection. We also observe that cortex-dependency correlates with longer reaction times. This suggests that auditory cortex is more easily bypassed by other circuits for stimulus detection than other primary sensory areas, which may be due to timing differences between auditory and visual associations.

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