The Genetic Control Of Platelet Production And Function
Funder
National Health and Medical Research Council
Funding Amount
$558,920.00
Summary
Platelets are the tiny cells that circulate in the body and make blood clot. The human body has more than a trillion of them at any one time, and they are replaced every week by the blood producing cells that reside in the bone marrow. Keeping the normal number of platelets steady is incredibly important any significant drop can result in a life-threatening hemorrhage. The clinical name given to a low platelet count is thrombocytopenia, and it is a very common problem. It can be caused by geneti ....Platelets are the tiny cells that circulate in the body and make blood clot. The human body has more than a trillion of them at any one time, and they are replaced every week by the blood producing cells that reside in the bone marrow. Keeping the normal number of platelets steady is incredibly important any significant drop can result in a life-threatening hemorrhage. The clinical name given to a low platelet count is thrombocytopenia, and it is a very common problem. It can be caused by genetic mutations, viral infections, or by cancer treatments like chemotherapy. The only way to raise platelet numbers in a person with thrombocytopenia is a blood transfusion, which carries with it risks and potential side effects. While we understand quite a lot about how the body produces platelets, we don t know anywhere enough to be able to develop new treatments. Our work is focused on the identification of the genes that control the process, beginning with mouse models of thrombocytopenia, genome mapping, gene isolation, and finally, making the links between the newly identified genes and patients with thrombocytopenia. It will give us a much better understanding of how platelets are produced, how things go wrong in human disease, and how new therapies might be developed to treat them.Read moreRead less
Identification And Characterisation Of Novel Mouse Models For Recessively Inherited Deafness.
Funder
National Health and Medical Research Council
Funding Amount
$504,750.00
Summary
Hearing loss affects 10% of Australians. Approximately 1 in 1000 children is born deaf. Another 1 in 1000 people develops hearing loss by adulthood. A progressive hearing impairment occurs with age so that more than 50% of people over the age of 75 have a substantial hearing loss. The financial, social and personal costs of deafness are significant. Deafness is caused by environmental and- or inherited factors. Environmental risk factors include premature birth, infections and exposure to loud n ....Hearing loss affects 10% of Australians. Approximately 1 in 1000 children is born deaf. Another 1 in 1000 people develops hearing loss by adulthood. A progressive hearing impairment occurs with age so that more than 50% of people over the age of 75 have a substantial hearing loss. The financial, social and personal costs of deafness are significant. Deafness is caused by environmental and- or inherited factors. Environmental risk factors include premature birth, infections and exposure to loud noise. Inherited factors include changes (mutations) in one of many genes whose products are essential for normal hearing. In the majority of children and young people with a hearing impairment the underlying cause is genetic. It is also thought that genetic predisposition frequently contributes to the early onset and the severity of age-related hearing loss. However, it has been difficult to identify the genes causing deafness, and as a consequence we know relatively little about what these genes do. The mouse ear is very similar to the human ear and in this application we propose to use mice to identify and study deafness genes. Australia has a unique resource of mice that are being especially bred to uncover genetic diseases. We have shown that 1 in a 1,000 of these mice have a genetic hearing loss similar to that found in most newborns and young people. These mice therefore provide us with an exceptional opportunity to discover novel deafness genes, which again will provide us with more information about how we hear. We will investigate why changes in these genes causes hearing loss and this information will allow us to determine in detail how genetic and environmental factors lead to hearing loss in young and old. The results will immediately allow us to offer earlier diagnosis and better counselling to affected families, and in the longer term we believe our research will enable us to develop improved or novel treatments to delay or prevent deafness.Read moreRead less