A sparse code for natural sound context in auditory cortex

Mateo López Espejo , Stephen V. David
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引用次数: 0

Abstract

Accurate sound perception can require integrating information over hundreds of milliseconds or even seconds. Spectro-temporal models of sound coding by single neurons in auditory cortex indicate that the majority of sound-evoked activity can be attributed to stimuli with a few tens of milliseconds. It remains uncertain how the auditory system integrates information about sensory context on a longer timescale. Here we characterized long-lasting contextual effects in auditory cortex (AC) using a diverse set of natural sound stimuli. We measured context effects as the difference in a neuron's response to a single probe sound following two different context sounds. Many AC neurons showed context effects lasting longer than the temporal window of a traditional spectro-temporal receptive field. The duration and magnitude of context effects varied substantially across neurons and stimuli. This diversity of context effects formed a sparse code across the neural population that encoded a wider range of contexts than any constituent neuron. Encoding model analysis indicates that context effects can be explained by activity in the local neural population, suggesting that recurrent local circuits support a long-lasting representation of sensory context in auditory cortex.

Abstract Image

听觉皮层中自然声音上下文的稀疏编码
准确的声音感知需要整合数百毫秒甚至数秒的信息。听觉皮层中单个神经元的声音编码谱时模型表明,大部分声音诱发的活动可归因于几十毫秒的刺激。听觉系统如何在更长的时间尺度上整合有关感觉背景的信息,这一点仍不确定。在这里,我们使用一组不同的自然声音刺激来描述听觉皮层(AC)中的持久语境效应。我们测量的情境效应是神经元在两种不同的情境声音之后对单一探测声音的反应差异。许多交流神经元表现出的语境效应持续时间超过了传统的频谱-时间感受野的时间窗口。不同神经元和刺激物的情境效应的持续时间和程度大不相同。这种语境效应的多样性在整个神经群中形成了一个稀疏的编码,它比任何组成神经元都能编码更广泛的语境。编码模型分析表明,语境效应可以用局部神经群的活动来解释,这表明在听觉皮层中,递归局部回路支持感觉语境的持久表征。
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CiteScore
2.20
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