Growth Regulatory Transcriptional Networks And Novel Therapies In Vascular Pathobiology
Funder
National Health and Medical Research Council
Funding Amount
$576,760.00
Summary
Cardiovascular disease and cancer together account for the majority of all deaths. Underpinning both these conditions are cellular and molecular changes in our blood vessels. This Fellowship will enable Professor Khachigian to enhance our understanding of fundamental mechanisms regulating the pathogenesis of vascular disease, and by harnessing this new knowledge in preclinical and human trials, generate novel strategies to combat a range of diseases through strategic partnership, collaboration a ....Cardiovascular disease and cancer together account for the majority of all deaths. Underpinning both these conditions are cellular and molecular changes in our blood vessels. This Fellowship will enable Professor Khachigian to enhance our understanding of fundamental mechanisms regulating the pathogenesis of vascular disease, and by harnessing this new knowledge in preclinical and human trials, generate novel strategies to combat a range of diseases through strategic partnership, collaboration and training.Read moreRead less
Stroke is a devastating disease causing mortality and morbidity on a massive scale, and which still has no treatment besides a clot-buster that cannot be used in 90% of patients. This research should provide a better understanding of stroke pathology and identify new therapeutic directions. It will elucidate an unappreciated but crucial role of specific immune cells in brain injury after stroke, and hopefully lead to new ways to limit brain injury and promote recovery from stroke.
Oxidative Processes In Vascular Health And Disease
Funder
National Health and Medical Research Council
Funding Amount
$851,980.00
Summary
The process that turns cut fruit brown when it is exposed to air is thought to cause disease of our blood vessels and heart as we age. Despite what we first thought, 'blocking' this oxidation process with antioxidant supplements does not lower heart disease. This is because oxidation not only causes harm but also is useful and essential for normal body function. Our research program aims to show which oxidative processes are needed for blood vessel health or cause vessel disease.
The Role Of Endometrial Stem Cells In Women’s Reproductive Health And Disease, And Their Use In Cell Based Therapies
Funder
National Health and Medical Research Council
Funding Amount
$727,765.00
Summary
The endometrial lining of the uterus rapidly grows and sheds each month in reproductive age women. My discovery of 2 types of endometrial stem cells has changed our understanding of how endometrium grows and how abnormalities in this process lead to gynaecological disease. This project will characterise the role of endometrial stem cells in endometriosis and examine how endometrial mesenchymal stem cells can be used as a cell-based therapy for pelvic organ prolapse.
The mechanisms regulating expression and function of surface receptors on blood platelets are critical for understanding cardiovascular diseases involving aberrant platelet function, not only thrombotic diseases such as heart attack or stroke, but other pathology involving platelets including coagulopathy and autoimmune thrombocytopenia caused by anti-platelet antibodies. Improved diagnosis and therapeutic targeting of platelet-specific receptors mediating arterial thrombosis can save many lives ....The mechanisms regulating expression and function of surface receptors on blood platelets are critical for understanding cardiovascular diseases involving aberrant platelet function, not only thrombotic diseases such as heart attack or stroke, but other pathology involving platelets including coagulopathy and autoimmune thrombocytopenia caused by anti-platelet antibodies. Improved diagnosis and therapeutic targeting of platelet-specific receptors mediating arterial thrombosis can save many lives given the prevalence and severity of disease.Read moreRead less
We aim to grow body tissues for surgery, including heart muscle, liver and pancreatic islets (for diabetes) and will investigate using stem cells to repair the brain after stroke. We will attempt to boost the expansion of blood vessels in growing tissues using molecular tools we have found crucial for cell signaling. In growing heart tissues and in stroke we will improve drugs that might boost the potential of stem cells to regenerate damaged tissues
My research focuses on the mechanisms responsible for diabetic kidney and heart complications with an emphasis on identifying novel targets as the basis for developing new treatment to reduce the burden of these complications. It is hypothesised that diabetic complications arise as a result of a number of key factors, the most important being chronic elevation of blood glucose.
My work focuses on the prevention of vascular disease. A major aim of mine is to improve outcome after stroke. We can test this by assessing whether individualised management plans provided to people with stroke will improve risk factors. Proper risk factor management reduces the risk of stroke recurrence. I also aim to reduce the burden of vascular disease in disadvantaged settings by finding out what risk factors are important in the development of these diseases in people living in poverty.
Molecular Approaches To Cardiac Development, Disease And Regeneration
Funder
National Health and Medical Research Council
Funding Amount
$863,910.00
Summary
Prof Harvey’s work explores the molecular and cellular networks that underpin heart development in the embryo and heart regeneration in the adult, and how these networks unravel in heart disease. Based on this knowledge, his work seeks to develop novel approaches for alleviating suffering in babies with congenital heart defects and adults enduring the devastating consequences of heart attack or heart failure.
My research projects in the fields of cancer biology, vascular biology and immunology assess molecular mechanisms of vascular remodelling and implications for disease.