Biomarkers For The Diagnosis And Prognostic Analysis Of Male Infertility
Funder
National Health and Medical Research Council
Funding Amount
$631,370.00
Summary
Male infertility is a common condition, affecting 1 in 15 men. Although a standard semen analysis is often performed to test whether a man is infertile, it is far from definitive. We have developed a new approach, by looking at proteins that are commonly missing from infertile sperm cells. From this analysis, we can definitively diagnose male infertility and are beginning to understand why men are becoming infertile.
I am an epidemiologist using high quality data collections and novel methods to generate new knowledge that will help reduce the impact or prevalence of birth defects and related disability.
There are new genetic technologies on the horizon that will influence decision-making about testing in pregnancy for fetal abnormality and also create a greater need for communication of important genetic information in families. Two areas of my research will focus on these issues. I will also examine how the interaction between genes and the environment during pregnancy, specifically in relation to alcohol use and assisted reproduction, impacts on offspring health and development
Understanding And Preventing Adverse Developmental Effects Of Perinatal Infection/inflammation
Funder
National Health and Medical Research Council
Funding Amount
$621,458.00
Summary
Exposure of babies to infection or inflammation within the womb is common and is associated with preterm delivery and illness in newborns. The biggest problem for these babies is lung disease due to inflammation of the lungs before birth and/or in response to lung injury after birth. We are investigating how inflammation alters lung development, and working on developing a novel cell therapy to prevent life-threatening newborn lung disease.
I work on mitochondrial diseases, which are inherited disorders of metabolism that block conversion of food energy into chemical energy needed by our cells. We focus on understanding (i) the genetic basis of these disorders using approaches such as massively parallel sequencing, systems biology and experimental studies, and (ii) the detailed mechanisms of disease by studying cell lines from patients and animal models. We aim to develop better methods for diagnosis, treatment and prevention.
Cancer remains a major cause of morbidity and mortality in the developed & developing world. Underpinning the causes of cancer are genetic and cellular changes in key structural proteins that control cell growth and movement. My research aims to discover key links in the regulation of these proteins that lead to tumour formation, metastasis and drug resistance. My goal is to use this knowledge to develop effective and less toxic treatment strategies to target difficult-to-treat cancers.
Applying Next Generation Sequencing To Family Studies
Funder
National Health and Medical Research Council
Funding Amount
$182,622.00
Summary
Recent advances in technology can determine the DNA composition of a person for much longer stretches of DNA, at a much cheaper cost. I use statistical analysis to identify regions of the human genome that harbour mutations that cause diseases such as epilepsy in families. These regions contain 5-15 million base pairs. We need to find the ONE base pair that causes disease. This application deals with the development of new tools to exploit new technology for the identification of mutations.
Development Of New Therapies For Respiratory Diseases And Infection
Funder
National Health and Medical Research Council
Funding Amount
$847,490.00
Summary
Prof Hansbro’s group have developed world 1st experimental models of emphysema, severe asthma infection and lung cancer. He uses them to further our understanding of these untreatable diseases. This has led to the development of new potential therapeutic approaches. Now, in discovery programs he will expand studies of pathogenesis to identify new therapeutic targets these diseases. In development and translational programs he will progress new therapies towards clinical application.
Allergies and chronic respiratory diseases are major causes of illness and death in Australia. Worryingly there are still many gaps in knowledge on how best to prevent and manage these diseases. The proposed program will investigate these questions and provide evidence to guide health policy and clinical management. As this program is built on state-of the-art methods and technology, these original Australian findings will be of great importance internationally.
The Molecular Basis By Which IL-6 Family Cytokines And Pathogen Recognition Receptors Promote Inflammation-associated Stomach And Lung Cancer
Funder
National Health and Medical Research Council
Funding Amount
$631,010.00
Summary
Lung and stomach cancer are the 2 most lethal cancers world-wide, and represent a growing number of cancers associated with chronic inflammation. However, the genes which trigger inflammation and then promote cancer in certain people remain largely unknown. Using mouse models for these inflammation-associated cancers, together with clinical specimens, our aim is to identify specific genes of the immune system which trigger chronic inflammatory responses that lead to cancer.