Cognitive function involves the participation of many different neurotransmitter systems in a variety of brain areas. The centerpiece of investigation regarding cognitive function has classically been the cholinergic system, but it has become increasingly clear that other transmitter systems interact with cholinergic systems to provide the neural basis for cognitive function.
This book brings together cutting edge research to determine how the transmitter interactions form the mechanistic bases for attention, learning and memory. This research on transmitter interactions not only provides a more accurate, though complex, picture of how the brain works to provide cognitive function, it also provides important new levels of understanding about the mechanisms of cognitive dysfunction and novel avenues for therapeutic treatment. The researchers who contributed to this volume both reviewed the latest findings but also point to the directions of advancement of the field of neurotransmitter interactions and cognitive function.
A detailed elucidation of the anatomical and physiological interactions of different neurotransmitter systems and how they act, both singularly and together, to organize and modulate such cognitive functions as learning and memory. Researchers from North and South America and Europe present 22 papers--many from a November 1991 symposium in New Orleans--on such topics as the functional pharmacology of basal forebrain dopamine, cholinergic/noradrenergic interactions and memory, and the methods and mechanisms of disrupting memory in rats by intraseptal GABAergic infusions. Annotation c. Book News, Inc., Portland, OR (booknews.com)
