Does Dietary Modulation Of The Colonic Microflora Attenuate The Effects Of Advanced Glycation Endproducts?
Funder
National Health and Medical Research Council
Funding Amount
$125,913.00
Summary
This research aims to determine whether the daily consumption of a prebiotic (fibre) supplement can encourage the growth of beneficial bacteria living in the human colon. Substances produced by these friendly bacteria may help to reduce inflammation, insulin resistance and harmful levels of Advanced Glycation Endproducts (AGEs), which can increase the risk of diabetets in susceptible individuals.
Identifying The Correlates Of Protective Immunity Against Invasive Staphylococcus Aureus Infection
Funder
National Health and Medical Research Council
Funding Amount
$954,131.00
Summary
The bacteria Staphylococcus aureus (S. aureus) remains a major cause of human infections, and the rise of highly pathogenic, antibiotic-resistant strains is making treatment increasingly difficult. In this project we will examine the immune response to S.aureus to determine which parts of the immune system are involved in responding to the bacteria. This knowledge will lay the foundation for which new innovative S. aureus vaccines will ultimately emerge.
Evaluation Of Haemophilus Haemolyticus As A Preventative Therapy For NTHi Disease
Funder
National Health and Medical Research Council
Funding Amount
$445,659.00
Summary
Middle ear infections are the most common reason for a child to be given antibiotics and undergo surgery. This project will investigate whether a harmless bacterium found in the respiratory tract of children can be used as a probiotic to prevent bacterial ear infections. Benefits from reducing ear infections include fewer children undergoing surgery, fewer GP visits and antibiotic prescriptions, less time off work for parents, reduced hearing loss in children, and improved educational outcomes.
Spatio-temporal Analysis Of Rat Intestinal Motility In Physiological And Disease Models
Funder
National Health and Medical Research Council
Funding Amount
$358,750.00
Summary
This project addresses the question of how the movements of the gut are controlled in health and disease. The progress of food along the gut is due to movements of the involuntary muscle of the wall of the intestine. Three fundamental mechanisms are involved. One is the spontaneous ability of the intestinal muscle to contract rhythmically and is driven by a delicate net of pacemaker cells. Fast propulsion of food contents depends on nerve circuits in the gut wall that generate a powerful pumping ....This project addresses the question of how the movements of the gut are controlled in health and disease. The progress of food along the gut is due to movements of the involuntary muscle of the wall of the intestine. Three fundamental mechanisms are involved. One is the spontaneous ability of the intestinal muscle to contract rhythmically and is driven by a delicate net of pacemaker cells. Fast propulsion of food contents depends on nerve circuits in the gut wall that generate a powerful pumping behaviour to prevent over-filling or to eject toxic or irritating substances (eg: some laxatives activate this mechanisms). This is often called peristalsis. A third mechanism consists of activity of nerve cells in the gut, that slowly propagates along the intestine and causes the muscle to contract, sweeping along any remnants. The movements generated by these three mechanisms occur in segments of intestine isolated from rats. The major difficulty up until now has been to relate the actual movements in living animals to these fundamental mechanisms. It is now possible to bridge this gap because we have developed methods to record, display and measure graphically the actual movements. Movements are transformed into spatio-temporal maps which show all of the contractions over a period of time. Coordinated activity is visible in these maps as recognisable patterns or visual objects. Measurements can be readily made with conventional statistics. The literature in gastroenterology is full of descriptions of motility based on indirect methods of recordings. In this project we will be able to correlate the previous indirect methods with the new graphic methods and thus establish a clearer, simpler and more accurate classification of normal patterns of intestinal motility. We will then use this to establish what goes wrong in a number of experimental diseases known to affect adversely the movements of the intestine.Read moreRead less