Investigating Cortical Plasticity And Connectivity In People With Chronic Low Back Pain And Controls Using Combined TMS_EEG
Funder
National Health and Medical Research Council
Funding Amount
$318,768.00
Summary
Little is known about the factors that predispose the development of chronic low back pain or what changes underpin effective treatment. Brain changes, thought to reflect adaptive processes are associated with chronic pain, but the extent of their contribution to CLBP is unknown. By measuring the adaptability of brain changes in people with CLBP I will determine if they differ from healthy controls in a way that predisposes them to develop chronic pain and is related to treatment response.
Optimising Exercise Prescription For Brain Health In Older Adults At Risk Of Dementia
Funder
National Health and Medical Research Council
Funding Amount
$594,123.00
Summary
To reduce dementia burdens in the community, cost effective and targeted early regenerative strategies are critical. Engaging in frequent aerobic exercise is one strategy that can delay the onset and slow the progression of dementia. However, prescription is limited by an incomplete understanding of how exercise positively influences brain health. Here I will investigate the influence of current exercise levels, intensity and exercise environment on brain health in adults at risk of dementia.
Tremor And Cognition In Multiple Sclerosis: Implementing Novel Treatments And Computerized Monitoring Strategies.
Funder
National Health and Medical Research Council
Funding Amount
$303,014.00
Summary
This research program aims to study two disabling symptoms of multiple sclerosis namely upper limb shaking, or tremor, and memory dysfunction. The first project will develop a new treatment for MS arm tremor, Botulinum toxin injections, into routine clinical practice. The second project aims to make available a computerised test of memory that can be done in clinic waiting rooms or at home. This will help neurologists to rapidly pick up changes in memory in a person with MS and improve care.
Deep Brain Stimulation For Treatment Resistant Major Depression: Neural Correlates And Neuropsychological Outcomes
Funder
National Health and Medical Research Council
Funding Amount
$257,561.00
Summary
Major depression is a prevalent and devastating mental illness. While there are numerous pharmacological and psychological antidepressant therapies available, many patients do not respond to these treatments. Deep Brain Stimulation (DBS) is emerging as a potential treatment option for individuals with chronic severe treatment resistant major depression. The current project will investigate the cognitive and neurobiological outcomes associated with the use of DBS to treat depression.
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.
Neural Signatures Of Disease Spread And Evolution In Motor Neurodegenerative Syndromes
Funder
National Health and Medical Research Council
Funding Amount
$408,768.00
Summary
A lack of understanding of the earliest changes brought on by motor neurone disease (MND), otherwise known as amyotrophic lateral sclerosis (ALS), prevents early diagnosis and therapeutic intervention. The proposed project aims to comprehensively characterise neurological changes prior to disease onset in pre-symptomatic carriers with a known genetic mutation linked to MND using targeted neuropsychological assessments and advanced multi-modal neuroimaging to track disease progression.
We are able to identify and discriminate objects in the world because of exquisitely detailed and rapid processing of sensory information by neurons in the cortex of the brain. In this project we will examine these operations in neurons in the cortex that receive input from the large face whiskers of the rat. These whiskers are used for fine-grain discrimination and for gauging distance. They are deflected by being actively moved, under muscle control, over objects (active touch) or by being pas ....We are able to identify and discriminate objects in the world because of exquisitely detailed and rapid processing of sensory information by neurons in the cortex of the brain. In this project we will examine these operations in neurons in the cortex that receive input from the large face whiskers of the rat. These whiskers are used for fine-grain discrimination and for gauging distance. They are deflected by being actively moved, under muscle control, over objects (active touch) or by being passively deflected by objects. Deflection results in inputs to the brain that are processed to form the neural basis for very finely detailed perceptual behaviour. In rats, with impoverished visual and auditory senses, the whiskers are the major sensory system for interacting with the world, and are used in navigating the environment and in finding and distinguishing foods. Thus they contribute strongly to the remarkable success of this species. This elegant sensory system has a number of advantages that make it a very good model for the study of brain mechanisms responsible for active fine-grain sensory function. We plan to take advantage of the unique features of this system to define the information processing that occurs in the cortex in this elegantly complex system. This will address an issue relevant to all sensory systems - namely the neural basis of complex fine grain perceptual behaviour. Understanding the mechanisms underlying active tactile perception also has relevance to clinical conditions involving deficits in active touch e.g., in diabetic polyneuropathy (which eventually affects ~50% of diabetics), in leprosy (in which an early sign is damage to active touch). Knowledge of the core brain processes in active touch gained in this study could eventually underpin the ameliorative technologies for such deficits.Read moreRead less
IRAP inhibitors are currently being developed as a new class of drugs for treating dementia and other forms of memory deficits. However, there are still gaps in our knowledge about how these drugs act to improve memory. The experiments outlined in this proposal will provide important insights into the drug action in different mouse models of memory deficit.
Neurodevelopmental Role Of Susceptibility Genes For Autism Spectrum Disorders: From Genes To Behaviour
Funder
National Health and Medical Research Council
Funding Amount
$482,968.00
Summary
Autism is a developmental neuropsychiatric syndrome characterised by impairments in three principal domains: social interaction, language and behavioural inflexibility. Autism spectrum disorder (ASD) refers to a group of neurodevelopmental syndromes with the common feature of dysfunctional reciprocal social interaction. In this project we will investigate the role of genes that increase the risk of ASD in the development of behaviours using an animal model. This work will lead to a better unders ....Autism is a developmental neuropsychiatric syndrome characterised by impairments in three principal domains: social interaction, language and behavioural inflexibility. Autism spectrum disorder (ASD) refers to a group of neurodevelopmental syndromes with the common feature of dysfunctional reciprocal social interaction. In this project we will investigate the role of genes that increase the risk of ASD in the development of behaviours using an animal model. This work will lead to a better understanding of the genetic basis of ASD.Read moreRead less