The Astrocyte: A Crossroads In Cerebral Malaria Pathogenesis
Funder
National Health and Medical Research Council
Funding Amount
$597,598.00
Summary
Malaria is an infectious disease that kills over 1 million people each year. It is prevalent in the Australian region, e.g. PNG and SE Asia. One of its most serious complications is cerebral malaria (CM), which affects the brain and is often fatal. This project will determine whether a very important cell in the brain, the astrocyte, is involved in the disease processes that lead to CM. This is highly relevant to the development of therapies that can be given along with anti-malarial drugs.
Characterisation Of T-cell Responses In Drug Hypersensitivity
Funder
National Health and Medical Research Council
Funding Amount
$306,338.00
Summary
Drug hypersensitivity reactions (DIHS) are a catastrophic form of adverse drug reaction. This study will use the drug abacavir, a cause of drug hypersensitivity to examine the way certain immune cells react and determine whether responses to viruses that are persistent in our bodies play a role these development of these reactions. This will help inform the immunological basis of DIHS as well as new treatments and potential ways of identifying drugs likely to cause these reactions in the pre-mar ....Drug hypersensitivity reactions (DIHS) are a catastrophic form of adverse drug reaction. This study will use the drug abacavir, a cause of drug hypersensitivity to examine the way certain immune cells react and determine whether responses to viruses that are persistent in our bodies play a role these development of these reactions. This will help inform the immunological basis of DIHS as well as new treatments and potential ways of identifying drugs likely to cause these reactions in the pre-marketing phase of drug development.Read moreRead less
The Role Of The Innate Immune System In The Immunopathogenesis Of Malaria
Funder
National Health and Medical Research Council
Funding Amount
$82,554.00
Summary
Malaria is common worldwide, affecting 600 million people. As with many infectious diseases, it the severity of a malaria infection is not only dictated by the parasite, but also the body’s immune response to the infection. This study looks at cells that contribute to the immediate immune response in two major clinical syndromes of malaria affecting women and children: cerebral malaria and malaria of pregnancy. By understanding the immune response, we gain insights into how to limit disease.