Stimulus-specific adaptation(SSA),defined as a decrease in responses to a common stimulus that only partially generalizes to other rare stimuli,is a widespread phenomenon in the brain that is believed to be related to...Stimulus-specific adaptation(SSA),defined as a decrease in responses to a common stimulus that only partially generalizes to other rare stimuli,is a widespread phenomenon in the brain that is believed to be related to novelty detection.Although cross-modal sensory processing is also a widespread phenomenon,the interaction between the two phenomena is not well understood.In this study,the thalamic reticular nucleus(TRN),which is regarded as a hub of the attentional system that contains multi-modal neurons,was investigated.The results showed that SSA existed in an interactive oddball stimulation,which mimics stimulation changes from one modality to another.In the bimodal integration,SSA to bimodal stimulation was stronger than to visual stimulation alone but similar to auditory stimulation alone,which indicated a limited integrative effect.Collectively,the present results provide evidence for independent cross-modal processing in bimodal TRN neurons.展开更多
In the acoustic world, no sounds occur entirely in isolation; they always reach the ears in combination with other sounds. How any given sound is discriminated and perceived as an independent auditory object is a chal...In the acoustic world, no sounds occur entirely in isolation; they always reach the ears in combination with other sounds. How any given sound is discriminated and perceived as an independent auditory object is a challenging question in neu- roscience. Although our knowledge of neural processing in the auditory pathway has expanded over the years, no good theory ex- ists to explain how perception of auditory objects is achieved. A growing body of evidence suggests that the selectivity of neurons in the auditory forebrain is under dynamic modulation, and this plasticity may contribute to auditory object perception. We propose that stimulus-specific adaptation in the auditory forebrain of the songbird (and perhaps in other systems) may play an important role in modulating sensitivity in a way that aids discrimination, and thus can potentially contribute to auditory object perception.展开更多
基金This work was supported by the National Natural Science Foundation of China(31872768,32171044,and 32100827)Zhejiang University K.P.Chao's High Technology Development Foundation.
文摘Stimulus-specific adaptation(SSA),defined as a decrease in responses to a common stimulus that only partially generalizes to other rare stimuli,is a widespread phenomenon in the brain that is believed to be related to novelty detection.Although cross-modal sensory processing is also a widespread phenomenon,the interaction between the two phenomena is not well understood.In this study,the thalamic reticular nucleus(TRN),which is regarded as a hub of the attentional system that contains multi-modal neurons,was investigated.The results showed that SSA existed in an interactive oddball stimulation,which mimics stimulation changes from one modality to another.In the bimodal integration,SSA to bimodal stimulation was stronger than to visual stimulation alone but similar to auditory stimulation alone,which indicated a limited integrative effect.Collectively,the present results provide evidence for independent cross-modal processing in bimodal TRN neurons.
文摘In the acoustic world, no sounds occur entirely in isolation; they always reach the ears in combination with other sounds. How any given sound is discriminated and perceived as an independent auditory object is a challenging question in neu- roscience. Although our knowledge of neural processing in the auditory pathway has expanded over the years, no good theory ex- ists to explain how perception of auditory objects is achieved. A growing body of evidence suggests that the selectivity of neurons in the auditory forebrain is under dynamic modulation, and this plasticity may contribute to auditory object perception. We propose that stimulus-specific adaptation in the auditory forebrain of the songbird (and perhaps in other systems) may play an important role in modulating sensitivity in a way that aids discrimination, and thus can potentially contribute to auditory object perception.
