Central nervous system and viscera are engaged in a process of continuous reciprocal communication. This gut-brain axis allows for a flow of bidirectional information that participates in the homeostatic control of energy balance. Preclinical and clinical research in this area continues to provide important new insights into the physiological regulation of feeding and body weight, and to identify defects in the gut-brain axis, which might contribute to the pathogenesis of eating disorders.
SYMPOSIA: S14. GUT-BRAIN CROSSTALK IN THE REGULATION OF FEEDING AND EATING DISORDERS / Maria Beatrice Passani. - ELETTRONICO. - (2016), pp. 6-7. (Intervento presentato al convegno 10th FENS Forum of Neuroscience tenutosi a Copenhagen nel 2-6 July 2016).
SYMPOSIA: S14. GUT-BRAIN CROSSTALK IN THE REGULATION OF FEEDING AND EATING DISORDERS
PASSANI, MARIA BEATRICE
2016
Abstract
Central nervous system and viscera are engaged in a process of continuous reciprocal communication. This gut-brain axis allows for a flow of bidirectional information that participates in the homeostatic control of energy balance. Preclinical and clinical research in this area continues to provide important new insights into the physiological regulation of feeding and body weight, and to identify defects in the gut-brain axis, which might contribute to the pathogenesis of eating disorders.
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