Mechanics Of Normal And Disordered Gastric Emptying Studied Using Simultaneous Ultrasound And High Resolution Manometry
Funder
National Health and Medical Research Council
Funding Amount
$145,626.00
Summary
Optimal digestion and absorption relies on the stomach breaking down food and delivering it to the small intestine at an optimal rate. Abnormalities in the processes controlling the stomach's processing of food may lead to malnutrition, gastrointestinal symptoms or unpredictable drug absorption, and are commonly seen in patients with diabetes mellitus, gastrointestinal reflux disease and nonulcer dyspepsia, or following stomach surgery. Currently our understanding of the way the stomach empties ....Optimal digestion and absorption relies on the stomach breaking down food and delivering it to the small intestine at an optimal rate. Abnormalities in the processes controlling the stomach's processing of food may lead to malnutrition, gastrointestinal symptoms or unpredictable drug absorption, and are commonly seen in patients with diabetes mellitus, gastrointestinal reflux disease and nonulcer dyspepsia, or following stomach surgery. Currently our understanding of the way the stomach empties food is incomplete, and there is little information as to the mechanisms by which diseases cause abnormal stomach emptying. Recent developments in recording methods mean that we can now simultaneously measure stomach contractions, the pressures these generate and flow from the stomach. This information is synchronised and displayed for analysis using computer techniques. In this project these novel methods will be used initially to examine the normal processes by which meals with a variety of compositions and consistencies empty from the stomach. This will provide information as to which aspects of the way the stomach functions are important for breaking down food into particles, and which aspects control the flow of food from the stomach into the intestine. The mechanisms by which the rate of emptying of the stomach is controlled by feedback signals caused by the presence of foodstuffs in the small intestine will be investigated by examining the effects of infusing nutrients into the intestine on the motions of the stomach wall, pressures within the stomach and the passage of stomach contents into the small intestine. The mechanism of action of drugs and diseases which slow stomach emptying will then be examined by measuring the movements, pressures and emptying of the stomach in subjects receiving the drug, or in patients with dibetes, and comparing this information with the processes observed during normal stomach emptying.Read moreRead less
In Vivo Studies On Ventriculo-vascular Coupling And The Role Of Aortic Pressure Wave Morphology On Coronary Blood Flow
Funder
National Health and Medical Research Council
Funding Amount
$137,700.00
Summary
Heart disease is a leading cause of death and disability in Australia. Conditions resulting in reduced blood flow to the heart are particularly common and dangerous. Despite significant progress, we still do not understand exactly how changes in heart function and the aorta (the major artery arising from the heart) affect blood flow to the heart. This study will utilise sophisticated new techniques to look at the interactions between heart function, pressure in the aorta and coronary blood flow
Physiology Of Acute Coronary Syndromes: Focus On Microvascular Dysfunction
Funder
National Health and Medical Research Council
Funding Amount
$90,029.00
Summary
Heart attacks,caused by blocked coronary arteries are an important public health concern.There are patients who have a worse outcome due to damage of small blood vessels that cannot be visualised with normal testing. New blood tests and invasive technology are available that can assess these small vessels.We plan to use these techniques to observe the extent of small blood vessel damage in patients with heart attacks and hope this will lead to better understanding of heart attacks and improved t ....Heart attacks,caused by blocked coronary arteries are an important public health concern.There are patients who have a worse outcome due to damage of small blood vessels that cannot be visualised with normal testing. New blood tests and invasive technology are available that can assess these small vessels.We plan to use these techniques to observe the extent of small blood vessel damage in patients with heart attacks and hope this will lead to better understanding of heart attacks and improved treatments.Read moreRead less
Coronary Atherosclerosis And Its Relationship With Platelet Activation
Funder
National Health and Medical Research Council
Funding Amount
$101,039.00
Summary
Blood clots are critical to the development of heart attacks, which kill many thousands of Australians annually. Platelets are cells in the blood that play an essential role in formation of blood clots, and coronary disease is associated with platelet activation. This research study will investigate the nature of platelet activation in the arteries of the human heart, its relationship to activation of inflammatory cells, and to the severity of narrowings in the arteries of the human heart.