My work focuses on understanding how the brain contributes to the development, manifestation, and complications of diabetes and obesity, primarily on how this happens at the neural network level. In particular, I am interested in how interoceptive and exteroceptive signals interact with the brain to control endocrine and behavioral responses to energy deficits. Currently I am using neuroinformatic methods to explore how the rat brain connectome can reveal the organization of the control networks that influence the behavioral, endocrine, and autonomic motor events associated with metabolic physiology and its dysfunction.
My work focuses on understanding how the brain contributes to the development, manifestation, and complications of diabetes and obesity, primarily on how this happens at the neural network level. In particular, I am interested in how interoceptive and exteroceptive signals interact with the brain to control endocrine and behavioral responses to energy deficits. Currently I am using neuroinformatic methods to explore how the rat brain connectome can reveal the organization of the control networks that influence the behavioral, endocrine, and autonomic motor events associated with metabolic physiology and its dysfunction.
