This project examines the types of computations used by brain cells to combine two types of sensory information, in a way that allow us to reach better decisions in everyday life. To address this general problem, we will perform experiments that explore the combination of signals from vision and hearing. The ability to combine sensory information is vital to our mental health, and this process is compromised in a range of psychological, psychiatric and neurological disorders.
Mechanisms Involved In Reduced Cardiac Contractility As A Consequence Of Growth Restriction During Fetal Development
Funder
National Health and Medical Research Council
Funding Amount
$317,810.00
Summary
Functional development of the heart muscle has been a focus of intense research over the last 40 years. Despite our current understanding of the changes in how excitation of the cardiomyocyte leads to contraction, a process broadly termed excitation-contrcation (E-C) coupling, a major model used to study paralells of human fetal development, the sheep, has not been examined in this context. As such, it remains unclear how E-C coupling evolves from the fetus to the adult. Understanding normal phy ....Functional development of the heart muscle has been a focus of intense research over the last 40 years. Despite our current understanding of the changes in how excitation of the cardiomyocyte leads to contraction, a process broadly termed excitation-contrcation (E-C) coupling, a major model used to study paralells of human fetal development, the sheep, has not been examined in this context. As such, it remains unclear how E-C coupling evolves from the fetus to the adult. Understanding normal physiology is imperative to subsequetly understand pathological states, such as interuterine growth restriction (IUGR). In Australia, the incidence of IUGR leading to low birth weight babies is 7%. IUGR is caused by maternal undernutrition, maternal smoking-drug use and placental insufficiency. It is associated with an increase in perinatal mortality, respiratory problems, SIDS and morbidity. Epidemiological studies show that low birth weight babies are also at an increased risk of cardiovascular disease, including heart failure, in adult life. To date, there is little information on the impact of fetal growth restriction on the normal development and function of the heart muscle. Understanding the impact of IUGR on heart muscle development will allow the elucidation of the underlying physiological mechanisms linking these two temporally distinct events. This mechanistic understanding will allow improved clinical management of those individuals at risk of cardiovascular disease in adult life arising from IUGR. It may also allow for early intervention strategies that can improve cardiovascular function. Therefore, we propose to examine both the normal developmental changes to E-C coupling so that we can understand how placental insufficiency leading to IUGR impairs normal heart muscle development. This will result in impaired function at a cellular level, which will ultimately manifest as an increased susceptibility of the heart to injury in later life.Read moreRead less
Identification Of Heterogeneity In Vasodilator Function In Human And Rat Resistance Vessels: Potential Drug Targets?
Funder
National Health and Medical Research Council
Funding Amount
$595,330.00
Summary
The balance between the ways that blood vessels decrease in size (constrict) and increase in size (dilate) determine how blood vessels normally function. There are many differences in the ways that blood vessels control this balance in different parts of the body. Such differences are altered in vascular diseases, such as hypertension and diabetes, which are prevalent in obesity, such that constriction generally outweighs dilation. However, what these differences are and how they occur are not w ....The balance between the ways that blood vessels decrease in size (constrict) and increase in size (dilate) determine how blood vessels normally function. There are many differences in the ways that blood vessels control this balance in different parts of the body. Such differences are altered in vascular diseases, such as hypertension and diabetes, which are prevalent in obesity, such that constriction generally outweighs dilation. However, what these differences are and how they occur are not well understood. While current drugs for treating vascular disease either reduce vessel constriction or increase dilation, they are not specific for individual arteries; a situation that would allow us to control vascular diseases in a very specific manner. Recently, we have described differences between the ways that individual vessels are controlled. These changes relate to differences in the way that different vessels dilate. AIMS - To further understand normal blood vessel function and the changes that occur in blood vessels in cardiovascular disease, with a focus on the ways that blood vessels dilate in normal states and in obesity-related diseases, such as in hypertension and diabetes. - The eventual aim is to identify the specific ways that arteries function, so that artery-specific drug targets can be identified to treat disease-related changes in cardiovascular disease in a very specific manner. EXPECTED OUTCOMES This project will contribute to understanding blood vessel function in health and disease. The expected eventual outcome is the identification of the mechanisms that underlie the function of different arteries in different parts of the body, so that specific individual vessel function can be targeted to treat vascular disease. Additionally, this work will also verify the relevance of the diet-induced obesity animal model, in terms of the characteristics and causes of human obesity and related cardiovascular disease.Read moreRead less