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NeuroGame: Can Neuromodulation Of Brain Rhythms Relieve Chronic Pain?
Funder
National Health and Medical Research Council
Funding Amount
$1,568,407.00
Summary
The growing number of overdoses and deaths caused by opioids in the therapy of chronic pain shows the urgent need to develop and test novel chronic pain treatments. We will address this need by developing and testing a novel and safe intervention that can provide pain relief via the primary source of pain: the brain. We will use cutting-edge imaging technology to unravel brain mechanism responsible for the recovery of chronic pain, including efforts to prevent rather than relive chronic pain.
Current therapy for AAV has major toxicities and 30% of Patients are dead or on dialysis within 3 years. This proposal aims to study a unique form of cell death termed Neutrophil extracellular traps (NETs) that initiates and perpetuates inflammation in this disease. We will use an animal model of the disease that mirrors human disease. We will inhibit crucial molecules in NET production to attenuate disease. This will provide proof of concept evidence to promote clinical trials in patients.
Pharmacological Strategies To Enhance Endogenous Opioid Actions In Pain Circuits.
Funder
National Health and Medical Research Council
Funding Amount
$1,318,226.00
Summary
Boosting endogenous opioid actions in our brain may allow us to utilize this system to reduce pain and the related disability without the addiction and overdose threat associated with opioid drugs. We have shown that we can enhance endogenous opioid actions using two pharmacological strategies. We will now determine how we can use these strategies to enhance endogenous opioid regulation of the neural function and behaviours important in pain and related anxiety disorders.
Preventing The Transition From Acute To Chronic Pain. The Role Of Neural And Non-neural Factors.
Funder
National Health and Medical Research Council
Funding Amount
$2,998,900.00
Summary
Pain following injury usually dissipates as the injury heals, however in some individuals it persists and lasts for years. Chronic pain is extremely difficult to treat, particularly that which originates from a damaged nerve. One of the roadblocks in developing effective treatments is our limited understanding of the pathophysiology. The overall aim of this proposal is to address this gap and determine the processes that occur in the brain that results in acute pain transitioning to chronic.
Epigenetic Reprogramming Of Calcified Vascular Smooth Muscle Cells As A Treatment For Vascular Calcification
Funder
National Health and Medical Research Council
Funding Amount
$1,285,195.00
Summary
Pathological hardening of blood vessels, or vascular calcification, is a frequent and deadly complication of many cardiovascular disorders. It is caused by the irreversible change in mature vascular smooth muscle cells (the main cell type in the blood vessel walls) to a bone-forming cell type. We have now identified a new gene that can potentially revert calcified vascular cells back to their physiological state. This represents a promising new approach for treatment of vascular calcification.
Harnessing Macrophage-derived Cytokine Signalling In Skeletal Muscle Regeneration
Funder
National Health and Medical Research Council
Funding Amount
$991,926.00
Summary
We propose to develop novel therapies and tissue engineering approaches for the treatment of muscle injury and wasting disorders using specific muscle stem cells called satellite cells. Our ultimate aim is to accelerate the development of safe, effective and affordable muscle stem cell-based therapies, in an attempt to lessen the disease burden of muscle wasting disorders. The approach will make use of the novel stem cell activating compounds and immune cells that we have identified.