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
Cochlear Mechanisms Of Otoacoustic Emission Generation
Funder
National Health and Medical Research Council
Funding Amount
$311,989.00
Summary
Deafness, both congenital and acquired, is likely to be one of the major causes of disability in the Australian workforce, in young Australians, and in some categories of pre-term infants in the next decade or two. While not life-threatening, hearing impairment deprives individuals of one of their most basic social needs: the ability to communicate with others. Although little can be done to recover lost hearing, it is important to detect hearing loss as early as possible in order to reduce furt ....Deafness, both congenital and acquired, is likely to be one of the major causes of disability in the Australian workforce, in young Australians, and in some categories of pre-term infants in the next decade or two. While not life-threatening, hearing impairment deprives individuals of one of their most basic social needs: the ability to communicate with others. Although little can be done to recover lost hearing, it is important to detect hearing loss as early as possible in order to reduce further loss (by behaviour modification in the case of noise-exposed adults) and to provide hearing assistance in very young children so that they may be exposed to some degree of auditory experience at as early an age as possible. To this end, the phenomenon of otoacoustic emissions, or noises from the ear, now recognised for twenty years, is likely to become even more significant in the early years of the next millennium. Otoacoustic emissions were first demonstrated as very soft echoes re-emerging from the ear after a delay of ten milliseconds or so following a click stimulus. These echoes are sounds produced by the ear as it goes about its normal function and are lost if the hearing sensitivity of the individual is below normal. Several other forms of otoacoustic emissions have been discovered and rapidly applied to the testing of hearing so that today the technique of assessing hearing status in neonates and others unable to co-operate, as well as in diagnostic applications, is widespread. The application of the technique, however, has preceded a real understanding of what otoacoustic emissions are and how they are generated, and their widespread use at the moment is somewhat akin to a car repair industry which does not understand how an engine works. This proposal intends to investigate the basic mechanisms behind otoacoustic emissions in order to improve their efficiency and accuracy of clinical interpretation.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.
Identification Of The Pain Pathway From The Rectum And Its Mechanisms Of Activation
Funder
National Health and Medical Research Council
Funding Amount
$566,931.00
Summary
Abdominal pain is one of the most common reasons why patients seek medical attention. It is now known that irritable bowel syndrome (IBS) is one of the major causes of abdominal pain, but the reason why people experience pain from the gut is not known. This project will identify which sensory nerves in the gut wall signal pain to the spinal cord during conditions that mimic IBS and the precise mechanisms that activate these sensory neurons during IBS-like inflammation will be investigated.
Imaging The Activation Of Sensory Nerve Endings That Detect Pain In The Colorectum
Funder
National Health and Medical Research Council
Funding Amount
$570,334.00
Summary
Within the gastrointestinal tract are sensory nerve endings that detect painful stimuli. In this project a new technique has been developed that allows us to monitor and record the activation of the particular sensory nerve endings that detect painful stimuli. This project will determine how these sensory nerve endings detect pain and how drugs might be used to relieve these unpleasant sensations arising from the gut wall.
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 a combined state-of-the-art genetics approaches in fruit flies, mice, rats, and humans, to identify and validate new genes that contribute to chronic pain, with the clear long term possibility to develop new strategic therapies to treat chronic pain disease.
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.
The Neural Control Of Serotonin Release From Intestinal Enterochromaffin (EC) Cells
Funder
National Health and Medical Research Council
Funding Amount
$117,187.00
Summary
Many functional gastrointestinal problems are believed to be caused by a disruption of the normal functioning of the nerves within the wall of the gut. These nerves are believed to receive information about the contents of the intestine from a specialised class of cell lining the inside wall of the gut called the enterochromaffin cell. The enterochromaffin cell does this job by modulating the release of the transmitter serotonin. In some disorders, like the Irritable Bowel Syndrome (IBS) which c ....Many functional gastrointestinal problems are believed to be caused by a disruption of the normal functioning of the nerves within the wall of the gut. These nerves are believed to receive information about the contents of the intestine from a specialised class of cell lining the inside wall of the gut called the enterochromaffin cell. The enterochromaffin cell does this job by modulating the release of the transmitter serotonin. In some disorders, like the Irritable Bowel Syndrome (IBS) which can affect the upper and lower intestine, the information that serotonin carries can become confused. Thus, the control of the release of serotonin from the enteroendocrine cell is an important process to understand in health and in disease. We will investigate this release directly in isolated tissues from guinea pig small and large intestine and from human large intestine. This study will examine the role of serotonin and the modulation of its release from the enterochromaffin cell. Problems with serotonin release may underlie disease, thus, understanding how this release is controlled will provide a foundation for new and specific therapies that target channels or receptors specific to the release of serotonin. These data could help to develop therapies for gastrointestinal problems such as the IBS, chronic intestinal pseudo-obstruction and gastro-oesophageal reflux disease. The release of serotonin is also intimately linked with the diarrhea associated with cholera and anti-cancer treatments. The proposed study will contribute to the ongoing development of specific therapies that block serotonin receptors on the nerve terminal and will lead to new therapies that compliment existing therapies by modulating the release of serotonin.Read moreRead less