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Over 80 million people have chronic constipation. It affects over 1/5 older people and is a major problem in aged-care. We have found that a painless method of electrical stimulation across the abdomen can overcome chronic constipation in children and adults. We will test the method to see what types of constipation it can help, including constipation caused by pain-medication and irritable bowel syndrome. This treatment is given at home and could improve life for many people around the world.
Translational Studies Of Novel Methods For The Assessment Of Gastrointestinal Motility.
Funder
National Health and Medical Research Council
Funding Amount
$713,517.00
Summary
Swallowing has complex physiology and swallowing problems (dysphagia) result in poor nutrition and death due to complications of aspiration. A/Prof Omari has invented a new method to assess swallowing function. The studies proposed will change how dysphagia is diagnosed and managed. The research follows three streams: (A) studies in large patient cohorts in whom a better diagnosis is needed (e.g. stroke), (B) studies of therapies and interventions and (C) studies of swallowing biomechanics.
TRANSCUTANEOUS ELECTRICAL STIMULATION TO TREAT CONSTIPATION DUE TO ANORECTAL RETENTION IN CHILDREN
Funder
National Health and Medical Research Council
Funding Amount
$635,320.00
Summary
If you don't poop, you die! Over 20% of older people have constipation. It starts in childhood in 1/100 people and lasts through life. At the Royal Children’s Hospital, Melbourne, we have been developing a physiotherapy method using electrical stimulation across the skin to treat long-term constipation. In this study we are comparing this treatment to current treatment in the most common type of chronic constipation in children.
The Knotty Problem Of Enterochromaffin Cells And Gastro-intestinal Function: Unravelling Cause And Effect
Funder
National Health and Medical Research Council
Funding Amount
$403,097.00
Summary
It is crucial to understand how the food we eat controls the secretions and movements of a healthy or a diseased gastrointestinal (GI) system. One way control is achieved involves the release of serotonin (5-HT) from the enterochromaffin cells present in the epithelial lining of the intestine. This is the subject of our proposal and our results will help us to understand the causes of GI disorders and help to formulate new treatments.
Development Of The GUTSTIM Device For The Treatment Of Intractable Constipation
Funder
National Health and Medical Research Council
Funding Amount
$380,746.00
Summary
We have developed a new treatment for chronic constipation that uses electrical stimulation through the skin similar to physiotherapy treatments for sports injuries. 20 million people (3% of children and 20% of the elderly) have chronic constipation. This proposal is to develop a simple purpose-built machine that has the best electronic properties for stimulating the intestine. The machine will be simple, easy to use and cheap, allowing safe use at home by children and the elderly.
Many infants and children suffer from bowel motility disorders, for example, chronic constipation affects up to 1 in 10 children. However, the cause of many of these paediatric motility disorders remains unknown. In this project, we will examine the development of wiring of the nervous system that controls bowel motility. This is the first study to investigate the development of cell-cell communication during early stages of nervous system development.
Mechanosensitive Afferent Nerves And Gastrointestinal Motility
Funder
National Health and Medical Research Council
Funding Amount
$384,693.00
Summary
This project aims to identify the different types of sensory nerves from the gut which cause sensations such as fullness, nausea or pain. These sensory nerves also activate important reflexes that coordinate different regions of the gut to ensure that food is properly digested and propelled. Many studies have examined these sensory nerves and how they can be activated by stretching the gut wall, but very basic questions remain to be answered. We do not know how many different types of sensory ne ....This project aims to identify the different types of sensory nerves from the gut which cause sensations such as fullness, nausea or pain. These sensory nerves also activate important reflexes that coordinate different regions of the gut to ensure that food is properly digested and propelled. Many studies have examined these sensory nerves and how they can be activated by stretching the gut wall, but very basic questions remain to be answered. We do not know how many different types of sensory nerves there are and whether they all respond to stretch in the same way. We cannot identify their specialised endings in the wall of the gut. While these sensory nerves definitely respond to stretch, they are also known to respond to contractions of the gut wall. Despite this, we do not understand how the normal movements of the gut wall activate them, nor why some movements can lead to pain. Most of the experiments will be carried out on small pieces of tissue taken from humanely killed guinea pigs and studied, under highly controlled conditions, in organ baths. The remainder of the study will be on specimens of human gut tissue obtained at surgery. This project will use new techniques to record sensory nerves during both stretch and contraction of the gut wall to understand what activates them. In addition, their endings will be labelled with dye to reveal their different shapes. Using computerised imaging techniques we will identify whether they respond to particular patterns of movement in the gut wall. Lastly we will record from these sensory neurones in live specimens of human colon to see whether the same types of sensory nerves are present in humans as in the small animals. This study will provide the first comprehensive account of sensory nerves to the gut wall that respond to distension, including those that activate pain pathways. This is a pre-requisite for designing new drugs that will target these nerve cells with minimal side effects.Read moreRead less
The Mechanisms Through Which Opiates Cause Gastrointestinal Dysfunction
Funder
National Health and Medical Research Council
Funding Amount
$410,594.00
Summary
Opiates are the mainstay analgesics for severe pain. However, their use in pain relief can be greatly limited due to gut-related side-effects. These include chronic constipation, which is mediated through actions on neurons in the intestine. In this proposal we will examine the role of key proteins, known as beta arrestins, in the generation of opiate-induced constipation. Knowledge derived from this study will facilitate the development of analgesics with fewer gastrointestinal side-effects.
The Role Of Voltage-gated Na+ And Ca2+ Channels In Post-inflammatory Hyperexcitability Of Enteric Neurons
Funder
National Health and Medical Research Council
Funding Amount
$520,000.00
Summary
Gastrointestinal inflammation causes changes in neurons that control gut functions (motility and secretion). These changes in neuronal properties lead to the development of post-inflammatory motility disorders. This will be the first detailed study of neuronal ion channels that are changed after inflammation in the gut. Our study will open the way to the development of therapeutic agents to treat post-inflammatory IBS and other conditions that involve disorders of motility.
Gut motility requires enteric neurons, which are located in the gut wall. During development, enteric neurons arise from precursors in the brain that migrate into the intestine. Failure of enteric neuron precursors to migrate and differentiate normally results in pediatric motility disorders. The aim of this research is to identify the mechanisms controlling the development of enteric neurons so that therapies can be developed for pediatric motility disorders.