Pain Systems Analysis Highlights PI3K Gamma As A Candidate Regulator Of Nociception.
Funder
National Health and Medical Research Council
Funding Amount
$461,810.00
Summary
Chronic pain will affect most of us at one point in our life, and there is a need for new drugs to manage this condition. The goal of this project is to use our computer modeling of genetic data from multiple species to predict new drug targets, and then use mouse models to look at the mechanism of action for predicted drug targets, and validate one potential drug target in particular for its therapeutic abilities to stop chronic pain.
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.
Piezo2 And Pain - Is There A Role For Piezo2 In Mechanically Induced Bone Pain?
Funder
National Health and Medical Research Council
Funding Amount
$543,848.00
Summary
Pain associated with bone marrow edema, osteoarthritis, bone cancer and fracture puts a significant burden on individuals, society, and the health care system in Australia. A dominant feature of these includes mechanical disturbances of the bone, and this is a trigger for the pain. In this study, we will determine if a newly discovered mechanically gated ion channel (Piezo2) is a key contributor to mechanically induced bone pain and could be a target for development of drugs to treat it.
Spinal Cord Injury Pain: Understanding Mechanisms To Develop Treatments
Funder
National Health and Medical Research Council
Funding Amount
$597,675.00
Summary
Spinal cord injury has devastating effects on health and quality of life. Many of the major consequences of injury, such as chronic pain and loss of voluntary voiding, are "invisible" – i.e., they are not as visible as limitations of mobility. Our study aims to define the neurobiological changes that cause development of persistent pain after spinal cord injury and use pharmacological tools to attenuate the development of pain.
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
Importance Of CGRP Alpha In Pain Processing From The Large Intestine
Funder
National Health and Medical Research Council
Funding Amount
$548,289.00
Summary
This project will determine the mechanisms by which sensory nerve endings detect painful stimuli in the large intestine. The project will use a novel genetically modified mouse (that is only available in our laboratory) which allows us, for the first time, to visualize and record directly from the sensory nerve endings that detect painful stimuli and work out how this process occurs. We also identify a specific gene that is essential for detecting painful stimuli from this organ.
Understanding The Role Of Regulatory T Cells In Chronic Pain Following Nerve Injury
Funder
National Health and Medical Research Council
Funding Amount
$587,046.00
Summary
Neuropathic pain is a debilitating condition of chronic pain that develops after damage to the nervous system, and lacks an effective treatment. This project focuses on the novel hypothesis that the immunosupressive regulatory T cells and their mediators play a critical role in controlling neuroinflammation and pain hypersensitivity following peripheral nerve injury. This study promises to enhance our understanding of the neuroimmune activation in neuropathic pain and offers novel approaches for ....Neuropathic pain is a debilitating condition of chronic pain that develops after damage to the nervous system, and lacks an effective treatment. This project focuses on the novel hypothesis that the immunosupressive regulatory T cells and their mediators play a critical role in controlling neuroinflammation and pain hypersensitivity following peripheral nerve injury. This study promises to enhance our understanding of the neuroimmune activation in neuropathic pain and offers novel approaches for pain management.Read moreRead less
We use a mouse model of inflammatory bowel disease (IBD) to determine how sensations from the inflamed gut are processed in the spinal cord. Over 60,000 Australians suffer from IBD and debilitating pain is a major symptom. Surprisingly, we know very little about how pain signals originating in the normal or the diseased gut are organised and processed in the central nervous system. Obtaining such information is a necessary first step before we can develop therapies to relieve gut pain.
Development Of Peripheral Sensory Pathways In Humans
Funder
National Health and Medical Research Council
Funding Amount
$477,504.00
Summary
To receive the appropriate information about the state of our muscles, joints, organs, and skin we need a properly 'connected' sensory system. Recent evidence suggests traumatic events during early development can alter sensory connections within the spinal cord. This can lead to debilitating movement disorders, digestive diseases, and increased pain. In this study we will examine how peripheral sensory fibres connect with the appropriate nerve cells in the human spinal cord during development.