Cordova CA, Yu AJ, Chiba AA (2004) Attention, uncertainty, and acetylcholine: Effects of nucleus basalis cholinergic lesions on probabilistic inference. Neuroscience 2004 Abstracts 779.13. Society for Neuroscience, San Diego, CA.
Summary: Animal investigations suggest that the basal forebrain corticopetal cholinergic system helps to regulate attention to unpredictable events. In light of these findings, computational theorists propose that cholinergic neurons precisely alter the way that sensory stimuli are processed in the cortex in light of how well predicted they are. In an initial test of this theory, two groups of rats were trained to respond to probabilistic stimuli presented serially in one of four spatial locations with varying degrees of predictive uncertainty (arising from a 2-layer Hidden Markov model). Following training, one group of rats was given a selective cholinergic lesion of the nucleus basalis/substantia innominata region of the basal forebrain using 192-IgG Saporin. The lesioned rats were unable to allocate attention appropriately, as evidenced by the decreased accuracy of responses to less probable stimuli. These findings provide support for the notion that the basal forebrain corticoptetal cholinergic system facilitates attention by regulating the balance of learned expectations and sensory processing during stimulus inference.
Related Products: 192-IgG-SAP (Cat. #IT-01)