Efferent Control Circuitry Of The Auditory Brainstem
Funder
National Health and Medical Research Council
Funding Amount
$406,306.00
Summary
Detection of important sounds within a noisy background is a crucial function of the mammalian hearing system and defects in this function impair social interaction, learning and development. In addition, activity in the brain needs to be carefully regulated by intrinsic circuitry in order to prevent excessive activity responsible for conditions such as tinnitus. The mechanisms by which the brain achieves this are poorly understood and this project aims to improve our understanding of some of th ....Detection of important sounds within a noisy background is a crucial function of the mammalian hearing system and defects in this function impair social interaction, learning and development. In addition, activity in the brain needs to be carefully regulated by intrinsic circuitry in order to prevent excessive activity responsible for conditions such as tinnitus. The mechanisms by which the brain achieves this are poorly understood and this project aims to improve our understanding of some of the brain circuits involved.Read moreRead less
Dendritic Activity And Neuronal Output During Sensory Perception
Funder
National Health and Medical Research Council
Funding Amount
$832,748.00
Summary
A fundamental goal of neuroscience is to understand how sensory experiences arise from activity in the brain. This is no easy feat and is the basis of the research in this proposal. Here, using cutting edge recording techniques, the activity of brain cells within the cortex will be measured during sensory-based behavioural tasks. This research will provide insight into therapeutic approaches to numerous brain diseases where sensory processing is compromised.
Circadian Control Of Peripheral Gastric Satiety Signals
Funder
National Health and Medical Research Council
Funding Amount
$701,010.00
Summary
When we feel full after a meal it is the result of a variety of different nerve signals from the gut in response to distension of the stomach and specific nutrients. These signals exhibit circadian variations. The aim of this project is to determine circadian control of gastric nerve satiety signals and to determine how this is affected by obesity and what happens when you disrupt circadian rhythm. This will ultimately identify targets and treatment regimes for the pharmacological treatment of o ....When we feel full after a meal it is the result of a variety of different nerve signals from the gut in response to distension of the stomach and specific nutrients. These signals exhibit circadian variations. The aim of this project is to determine circadian control of gastric nerve satiety signals and to determine how this is affected by obesity and what happens when you disrupt circadian rhythm. This will ultimately identify targets and treatment regimes for the pharmacological treatment of obesity.Read moreRead less
Use Of A Novel Technique To Identify The Sensory Nerve Endings That Respond To Painful Stimuli In The Upper Gastrointestinal Tract And Characterize Their Mechanisms Of Activation
Funder
National Health and Medical Research Council
Funding Amount
$353,243.00
Summary
Many people experience pain in their upper gastrointestinal tract. Unlike the skin, however, we have no idea where the sensory nerve endings that detect pain are located in this part of the body, and no clear understanding of how these nerve endings are activated to cause pain. This project will utilise a novel technique recently developed by the CIA to finally identify and record directly from the sensory nerve endings that detect painful stimuli in the upper gastrointestinal tract and characte ....Many people experience pain in their upper gastrointestinal tract. Unlike the skin, however, we have no idea where the sensory nerve endings that detect pain are located in this part of the body, and no clear understanding of how these nerve endings are activated to cause pain. This project will utilise a novel technique recently developed by the CIA to finally identify and record directly from the sensory nerve endings that detect painful stimuli in the upper gastrointestinal tract and characterise the mechanisms underlying their activation.Read moreRead less
Understanding How Inflammatory Bowel Disease Causes Hypersensitivity Of Colonic Sensory Nerve Endings And Increased Abdominal Pain
Funder
National Health and Medical Research Council
Funding Amount
$589,466.00
Summary
Patients with inflammatory bowel disease (IBD) commonly experience increased abdominal pain. This project utilises two novel techniques developed by the Chief investigator, that allow us to understand how inflammation of the large intestine leads to increased pain sensations. This project will use these new techniques to identify, for the first time, the sensory nerve endings that detect painful stimuli from within the large intestine; and how these nerve endings become hyperexcitable during inf ....Patients with inflammatory bowel disease (IBD) commonly experience increased abdominal pain. This project utilises two novel techniques developed by the Chief investigator, that allow us to understand how inflammation of the large intestine leads to increased pain sensations. This project will use these new techniques to identify, for the first time, the sensory nerve endings that detect painful stimuli from within the large intestine; and how these nerve endings become hyperexcitable during inflammation to cause increased abdominal pain.Read moreRead less
Transcriptional Regulation Of Nociceptor Function And Extreme Genetic Pain Disease
Funder
National Health and Medical Research Council
Funding Amount
$1,007,462.00
Summary
Disorders involving untreatable pain have a devastating impact on a patient’s quality of life. To better treat these conditions, we require a basic understanding of how sensory neurons work. In this study we will define the genetic network involved in regulating pain-sensing neurons. We will then search the genome of pain patients looking for coding mutations within this pain transcriptional network, and we will prove these mutations are causative in fly and mouse systems.
A Novel Technique For Prolonged Silencing Of Visceral Pain Without Opiates
Funder
National Health and Medical Research Council
Funding Amount
$637,383.00
Summary
There has been substantial interest in the community for pain relief without opiates. This project demonstrates a new strategy to suppress pain at the source for prolonged periods, by suppressing activity in the sensory nerve endings that detect pain, not by acting in central pathways like opiates. To do this, we use a harmless virus to shut down a vital sodium channel for pain perception. These experiments use techniques that were recently developed in our lab and cant be performed elsewhere.
Targeting GDNF Family Ligand (GFL) Signalling To Treat Inflammatory Bone Pain
Funder
National Health and Medical Research Council
Funding Amount
$329,285.00
Summary
Pain associated with bone marrow oedema syndromes, osteomyelitis, osteoarthritis, fractures and bone cancer causes a major burden on individuals and health care systems in Australia and worldwide. In this application, we will explore specific signalling pathways that we have identified in nerves that code bone pain. This will provide an opportunity for the rational design of highly specific drugs capable of interacting exclusively with molecules that drive pain in these conditions.
Neuronal Activity And Variability Underlying Perception And Action
Funder
National Health and Medical Research Council
Funding Amount
$349,802.00
Summary
Perception and behaviour are often unpredictable. We do not identically perceive repeated stimuli, and even professional athletes cannot precisely replicate their actions. This project compares variations in the activity of motion-sensitive neurons in the brain with variability in motion perception and eye movements. This should give insights into how neuronal activity underlies conscious perception and eye movements and may ultimately help treat conditions with impaired control of movement.
Differentiation, Electrical Activity And Synapse Structure Of Human Stem Cell-derived Sensory Neurons
Funder
National Health and Medical Research Council
Funding Amount
$322,088.00
Summary
A major challenge in treating neurodegenerative conditions with stem cells, is to generate a population of donor cells which are capable of incorporating into the host nervous system and restoring function. This proposal will test the capacity of human stem cells to make functional connections in the auditory system, potentially enhancing hearing with a cochlear implant. These studies are critical in determining how stem cells may be used to promote functional regeneration of the damaged nervous ....A major challenge in treating neurodegenerative conditions with stem cells, is to generate a population of donor cells which are capable of incorporating into the host nervous system and restoring function. This proposal will test the capacity of human stem cells to make functional connections in the auditory system, potentially enhancing hearing with a cochlear implant. These studies are critical in determining how stem cells may be used to promote functional regeneration of the damaged nervous system.Read moreRead less