Impact Of Somatic Versus Dendritic Inhibition On Neuronal Output
Funder
National Health and Medical Research Council
Funding Amount
$1,047,686.00
Summary
The brain is made up of literally billions of neurons connected in complex networks. These neurons come in two primary flavors - excitatory and inhibitory - which work in balance. Too much excitation and the brain becomes epileptic, too much inhibitory and we go into a coma. This proposal focuses on the role of specific inhibitory cell types in regulating brain function, and has relevant to a range of neurological disorders from epilepsy, to schizophrenia to depression.
The Modulation Of Neuronal Activity By Inter-cortical Sensory Input
Funder
National Health and Medical Research Council
Funding Amount
$638,771.00
Summary
For any given behaviour, the brain must merge information from all different sensory systems to generate a coherent representation of the external world. How this is achieved is largely unknown and is the basis of this research proposal. Here, using cutting edge recording techniques, the activity of brain cells within the cortex will be measured during the activation of multiple sensory systems. This research will provide insight into therapeutic approaches to local brain damage.
Function And Physiological Role Of Inhibitory Circuits In The Amygdala
Funder
National Health and Medical Research Council
Funding Amount
$741,518.00
Summary
The amygdala is part of the brain that assigns emotional content to our sensory world and dysfunction of the amygdala is responsible for many anxiety-related disorders. Many anxiolytics, like valium, act on receptors in the amygdala. In this project we will study circuits in the amygdala that are modulated by anxiolytics. These studies will provide essential information in the understanding of anxiety disorders and help in developing drugs to treat these disorders.
Regulation Of Cortical Excitability By GABAB Receptors
Funder
National Health and Medical Research Council
Funding Amount
$340,976.00
Summary
In the brain electrical activity either excites or inhibits nerve cells. Excitation is balanced by inhibition. If these two processes become unbalanced we can become unconscious or go into seizure. These extreme conditions emphasize the importance of the balance between excitation and inhibition in the brain. While there has been much work on the role of excitation, less is known about inhibition. In this project proposal we will investigate how inhibition regulates excitation in the cortex.
The Function And Modulation Of Dendritic Activity Underlying Neural Circuits And Behavior
Funder
National Health and Medical Research Council
Funding Amount
$450,641.00
Summary
Understanding how brain cells translate sensory input into behaviour is central to explaining how the brain works. My research focuses on the long-standing question of how information from different brain regions is received and processed within individual brain cells. This research is crucial to understanding brain function and can provide a greater understanding of the neuronal processes underlying diseases such as epilepsy, schizophrenia, depression and alcoholism.