Homeostatic and non-homeostatic control of feeding and behaviour

This thesis considers both the homeostatic and non-homeostatic neural mechanisms that influence feeding and behaviour. We use cutting edge techniques to investigate homeostatic and non-homeostatic neural circuits in mice to determine their influence over feeding and behaviour. Our findings demonstrate that homeostatic circuits can influence behaviour, while non-homeostatic circuits exist that can override metabolic signals. These non-homeostatic circuits may be relevant for conditions such as
more » ... onditions such as obesity and anorexia.
doi:10.26180/5f5edffc1a2b2 fatcat:tgrwe463h5asbk7g42uwngknxe