Mechanisms Regulating Nutrient Induced Motor Patterns In The Isolated Small Intestine
Funder
National Health and Medical Research Council
Funding Amount
$427,750.00
Summary
The movements of the small intestine are essential for the digestion and absorption of a meal and consist of two basic patterns during a 3-4 hour period after a meal. These are mixing (or segmentation) and propulsion (or peristalsis). Although it is the subject of ongoing study, much is known about the basic mechanisms that control propulsion, largely because this behaviour is readily seen in isolated segments of gut so it is possible to undertake highly controlled experiments to identify the va ....The movements of the small intestine are essential for the digestion and absorption of a meal and consist of two basic patterns during a 3-4 hour period after a meal. These are mixing (or segmentation) and propulsion (or peristalsis). Although it is the subject of ongoing study, much is known about the basic mechanisms that control propulsion, largely because this behaviour is readily seen in isolated segments of gut so it is possible to undertake highly controlled experiments to identify the various cellular components of the system. By contrast, mixing has only been reliably seen in intact animals making studies of the detailed mechanisms responsible for this behaviour much more difficult. What is known is that the composition of a meal controls the relative amount of mixing and propulsion seen at any location along the small intestine. We have recently identified a pattern of contractions in isolated small intestine (duodenum and-or jejunum) that is induced by the presence of a nutrient in the intestine and appears very similar to the mixing behaviour seen in the intact animal. We have shown that this pattern depends on the activity of nerve cells including those that excite the gut muscle and that it depends on the activity of a hormone released from the lining of the gut wall by fats and other nutrients. The aims of this proposal are to identify how nutrients interact to produce this pattern of contractions, the relative roles of specific types of nerve cells and the sites at which the local hormones released by nutrients act. This is important because increasing the proportion of mixing to propulsion enhances the absorption of nutrient from a meal, so if the mechanisms that initiate mixing behaviour can be regulated in a predictable way by specific nutrient, absorption can be enhanced in various malabsorption syndromes.Read moreRead less
I am a cardiorespiratory neuroscientist. My work aims to discover what determines central respiratory and sympathetic activity and how this controls breathing and the circulation in health and disease
Factor XII Dependent Coagulation, Thrombin And Platelet Glycoprotein 1ba In Arterial Thrombosis And Bleeding Disorders
Funder
National Health and Medical Research Council
Funding Amount
$104,664.00
Summary
Clot formation is the key event underlying heart attacks and strokes. There is new data that Factor XII (FXII) can play an important role in clot formation-thrombosis. We aim to examine the role FXII plays in clot formation, in particular the role of FXII in thrombin generation, which is the central event of clot formation, and its interaction with platelet glycoprotein 1ba (another important molecule in thrombosis). New insights into clotting and new therapies can result from our research.
NOD-like Receptors And Severe Malaria: Do Inflammasomes Mediate Immunopathogenesis?
Funder
National Health and Medical Research Council
Funding Amount
$263,001.00
Summary
Our immune system is very effective in preventing disease. But sometimes our immune cells overreact and actually make us sick. Recently, a new component of the immune system, the inflammasome, was discovered. Overreaction of the inflammasome can result in fever, inflammation, and even death. This project will investigate whether inflammasome overreaction exacerbates diseases as diverse as malaria and cancer, and whether drugs that inhibit the inflammasome can help cure these and other diseases.
The Role Of DNA Sensing In The Pathogenesis Of Colorectal Cancer
Funder
National Health and Medical Research Council
Funding Amount
$633,704.00
Summary
Colorectal (bowel) cancer is a leading cause of death in Australia and worldwide. The ability of the body to detect DNA from damaged or dying cells in the gut is an important part of the healing process. This response also provides protection against colorectal cancer. In this project, we investigate how a DNA sensor prevents the development of intestinal tumours. This project will lead to new ways to fight cancer in humans.
A direct drive linear tube generator for ocean wave energy conversion. This project aims to investigate a direct drive linear electromagnetic generator system for the maximum wave energy conversion and frequency bandwidth. This system has a translator of a multiple degree of freedom non-linear oscillator system built with the Halbach ring array pattern and ferro-fluid bearings. To establish wave energy conversion science, this project will investigate the device, its integration with a buoy stru ....A direct drive linear tube generator for ocean wave energy conversion. This project aims to investigate a direct drive linear electromagnetic generator system for the maximum wave energy conversion and frequency bandwidth. This system has a translator of a multiple degree of freedom non-linear oscillator system built with the Halbach ring array pattern and ferro-fluid bearings. To establish wave energy conversion science, this project will investigate the device, its integration with a buoy structure under wave loadings and automatic control of power conversion and conditioning. The outcome could meet demands for wave energy conversion technologies that reduce power generation cost and emissions, benefiting the Australian economy and environment.Read moreRead less