Disorders Of Action Control And Learning-related Plasticity In The Basal Ganglia
Funder
National Health and Medical Research Council
Funding Amount
$434,874.00
Summary
Disorders of the basal ganglia have long been known to produce severe cognitive symptoms including a deficit in the control of voluntary action. This project will assess the learning processes through which humans and other animals acquire such actions. We will systematically investigate changes in cellular plasticity associated with the acquisition of new actions to establish the role that it plays in action control under normal and pathological conditions.
Pathologies Of Action Control: Amygdala-striatal Interactions And The Development Of Habits.
Funder
National Health and Medical Research Council
Funding Amount
$431,867.00
Summary
Changes in basal ganglia function, whether produced by neurodegenerative disorders, stroke, injury or disease, can produce pathological changes in action control. This proposal will assess the role of amygdala afferents on basal ganglia structures, most notably the dorsal striatum, in this process. Using an animal model we will compare the role of central and basolateral amygdala inputs to striatum in decision-making, choice and the transition of actions to reflexive, habitual responses.
Dysfunctions In Decision-making And The Cognitive Control Of Action
Funder
National Health and Medical Research Council
Funding Amount
$647,341.00
Summary
The aim of this research project is to establish the neural bases of dysfunctions in decision-making associated with deficits in the cognitive control of action. Decision-making is a complex capacity dependent on the interaction between neural systems that mediate cognition and the selection of specific actions. To this end we will examine the intracellular, cellular and circuit level processes controlling the influence of predictive information on choice between goal-directed actions.
The aim of this research project is to provide critical new information on the functional changes in brain circuits mediating cognitive-emotional integration during decision-making. This project will use a powerful and unique combination of behavioural, circuit-level, cellular, genetic and imagining tools to assess decision processes in healthy rodent and human subjects, and in animal models of, and humans suffering from, specific psychiatric disorders.
High-resolution Brain Imaging Of Basal Ganglia Function
Funder
National Health and Medical Research Council
Funding Amount
$589,083.00
Summary
This project will develop new methods for high resolution MRI imaging of the human brain. We will assess functions of deep brain areas known as the basal ganglia that play a critical role in movement planning and co-ordination. Dysfunction within the basal ganglia is responsible for the motor impairments seen in people with Parkinson’s disease. In this project, we will examine changes in basal ganglia function and structure that lead to individual differences in movement control and learning.
Determining Neuronal Connections Involved In Parkinson's Disease And Cocaine Addiction
Funder
National Health and Medical Research Council
Funding Amount
$343,300.00
Summary
Addictive behaviours in response to cocaine use and fine motor coordination that is affected in Parkinson's disease are both controlled by the same type of cells/neurons, i.e., dopamine neurons. However, the circuitry of these neurons varies from where they originate and the type of connections they make. By understanding the neuronal circuitry of these two circuitries in concert we will be able to gain important insight into their roles in adaptive and pathological brain function.
Repair Of The Nigrostriatal Pathway By Phenotype Shift Of Dopamine Neurones
Funder
National Health and Medical Research Council
Funding Amount
$561,558.00
Summary
Repairing the injured brain will depend on developing new cells that can form the correct cell type, make the right connections and be incorporated into normal brain circuitry. We have found that dopamine cells, which are lost in Parkinson's Disease, are being renewed in the adult rodent brain. This study is directed at finding factors that control this process and to exploit these factors therapeutically. We provide evidence that this can be used to treat Parkinson's Disease.
Amelioration Of The Cognitive Deficits In A Model Of Alzheimers Disease
Funder
National Health and Medical Research Council
Funding Amount
$542,890.00
Summary
The project investigates a brain molecule called p75, and the part it plays inmemory impairment in Alzheimer's Disease (AD). We predict that p75 is a vital link in the disease processes affecting memory.This research has the potential to lead to an effective treatment for AD, by stimulating work on compounds with the ability to blockthe damaging functions of p75.