Excitatory Synaptic Circuitry And Plasticity In The Amygdala.
Funder
National Health and Medical Research Council
Funding Amount
$405,750.00
Summary
The amygdala is a key structure in the neuronal circuitry that underlies the analysis of emotional information. In particular this structure plays a major role in the processing of fear-related information. Disorders of the processing and storage of such information are thought to be the major underlying cause of mental disorders such as panic attacks, anxiety and post traumatic stress disorder. Understanding the physiology of this structure and the ways in which this can change in response to v ....The amygdala is a key structure in the neuronal circuitry that underlies the analysis of emotional information. In particular this structure plays a major role in the processing of fear-related information. Disorders of the processing and storage of such information are thought to be the major underlying cause of mental disorders such as panic attacks, anxiety and post traumatic stress disorder. Understanding the physiology of this structure and the ways in which this can change in response to various stimuli is necessary for the development of rational therapies that target the amygdala.Read moreRead less
The Contributions Of Different Sources Of Calcium To The Induction Of Long Term Potentiation
Funder
National Health and Medical Research Council
Funding Amount
$267,750.00
Summary
When we make memories, we alter the strength of synaptic connections between nerve cells.These changes are particularly marked in the hippopcampus ; a region of the brain involved in the formation of memories. The strength of a synaptic connection is altered if it activates a neurone sufficiently to cause a rise in the level of calcium ions. Calcium can be derived from several sources within the neurone. This project aims to assess the relative importance of these different sources of calcium in ....When we make memories, we alter the strength of synaptic connections between nerve cells.These changes are particularly marked in the hippopcampus ; a region of the brain involved in the formation of memories. The strength of a synaptic connection is altered if it activates a neurone sufficiently to cause a rise in the level of calcium ions. Calcium can be derived from several sources within the neurone. This project aims to assess the relative importance of these different sources of calcium in inducing increases in synaptic strength.Read moreRead less
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.
The Role Of Action Potentials In Local Calcium Signalling And Induction Of Different Forms Of LTP
Funder
National Health and Medical Research Council
Funding Amount
$330,691.00
Summary
Our understanding of how the brain learns and remembers things is still limited. There is good evidence that changing the strength of the connections (synapses) between brain cells (neurons) can allow information to be stored. One type of synaptic change is called long-term potentiaton (LTP), which is a long-lasting increase in the efficacy of communication between neurons. Recently, I have described 3 different forms of LTP in a region of the brain that is known to be important for learning and ....Our understanding of how the brain learns and remembers things is still limited. There is good evidence that changing the strength of the connections (synapses) between brain cells (neurons) can allow information to be stored. One type of synaptic change is called long-term potentiaton (LTP), which is a long-lasting increase in the efficacy of communication between neurons. Recently, I have described 3 different forms of LTP in a region of the brain that is known to be important for learning and memory. These forms of LTP have different persistence characteristics - LTP 1 is relatively short-lasting, LTP 2 is of intermediate duration, and LTP 3 is very long-lasting and perhaps even permanent. Each form of LTP is selectively triggered by an increase in calcium in a different part of the neuron. In the present study, I will investigate the relationships between electrical activity in different parts of the neuron in order to define the 'rules' for triggering each form of LTP. This information is important for future studies into the specific role played by each form of LTP in learning and memory processing in the brain. A better understanding of the relationship between LTP and learning and memory will assist in developing effective treatment strategies for disorders of memory, including Alzheimer s disease, addictive bahaviour, and learning disorders.Read moreRead less
Control of the use of DNA, gene expression, is vital to all living organisms, especially in development and disease. The information in the genes is transferred to an intermediate molecule, mRNA, in a process called transcription. The genetic information in the mRNA is subsequently used, in the process called translation, to make the protein encoded by the original gene. The switching on and off of DNA appears to be most frequently controlled at the transcription step but recently it has become ....Control of the use of DNA, gene expression, is vital to all living organisms, especially in development and disease. The information in the genes is transferred to an intermediate molecule, mRNA, in a process called transcription. The genetic information in the mRNA is subsequently used, in the process called translation, to make the protein encoded by the original gene. The switching on and off of DNA appears to be most frequently controlled at the transcription step but recently it has become apparent that there are many post-transcriptional events that govern how efficiently the genetic information is ultimately converted to protein molecules. In this project we will investigate the molecular mechanisms of several proteins, heterogeneous nuclear ribonucleoproteins (hnRNPs), that appear to play regulatory roles in many of these steps. These proteins appear to affect the longevity and replication of cells, the important chemical changes that take place in RNA after it is transcribed and before it is translated, the movement of the modifed RNAs through the cell and the efficiency of translation. Because of these central functions they are involved in development of tissues such as the brain, and in diseases including lung, skin and brain cancers, and rheumatoid arthritis. In this project we will focus on two RNA molecules, one vital for myelination in the central nervous system and the other for memory.Read moreRead less
Improving Long-term Mortality Rates Following Sepsis.
Funder
National Health and Medical Research Council
Funding Amount
$99,682.00
Summary
It is estimated that 37.9 million patients survive sepsis each year. Studies have demonstrated that among patients who survive for 30 days after admission for sepsis, over 40% die in the following two years. There are currently no guidelines that provide recommendations on post-hospital management of sepsis. This research programme aims to identify those patients at greatest risk of death and implement post-sepsis care with the aim to significantly reduce long-term mortality after sepsis.
Longitudinal Communication Outcomes Following Traumatic Brain Injury
Funder
National Health and Medical Research Council
Funding Amount
$798,171.00
Summary
Traumatic brain injury (TBI) is the leading cause of disability in young Australians. The condition frequently manifests in impaired verbal communication. Communication is essential to successful rehabilitation, and return to society. However, the critical time for delivery of optimal treatment for communication remains unknown. This prospective longitudinal study will examine communication recovery following (TBI) to identify predictors of recovery and the best time to offer treatment.
Early Antipsychotic Exposure During Childhood And Adolescence: Does It Lead To Long Term Brain And Behaviour Changes In Adulthood?
Funder
National Health and Medical Research Council
Funding Amount
$318,768.00
Summary
Mental health problems affect at least 9% of Australia's 4.1 million children. With the trend towards prescribing antipsychotic medication “off-label” to control these mental disorders in young people and the long-term consequences of doing so unknown, this timely research program aims to address a critical health issue by providing clinicians with valuable information so they can better balance the risk/benefit ratio before prescribing antipsychotics to young people.
Evaluating “Standing Tall” – An Engaging Home-based Exercise Program Using Mobile Technology For Maximizing Long-term Adherence And Preventing Falls In Older People: Randomized Controlled Trial
Funder
National Health and Medical Research Council
Funding Amount
$791,081.00
Summary
Current evidence suggests that older people have to exercise for two hours per week for six months to prevent falls, with a strong focus on balance exercises. We have developed and tested an engaging home-based balance training program delivered through mobile (tablet) technology, called ‘Standing Tall’. We propose a randomised controlled trial to examine the effectiveness of our program for preventing falls in 500 community-dwelling older people, in addition to adherence- and cost-analyses.