Projection Of The Impact Of Climate Change On The Transmission Of Ross River Virus Disease
Funder
National Health and Medical Research Council
Funding Amount
$267,645.00
Summary
There is no doubt that mosquito-borne diseases (MBDs) are sensitive to climatic conditions. However, it remains unclear how climate change will influence the distribution and incidence of MBDs. This study aims to use an interdisciplinary and integrated approach to project the impact of future climate change on the transmission of Ross River virus disease - the most common and widespread MBD in Australia, and to provide scientific evidence for developing pulbic health adaptation policies.
The Impact Of Outdoor Aeroallergen Exposure On Asthma Exacerbations In Children And Adolescents
Funder
National Health and Medical Research Council
Funding Amount
$473,924.00
Summary
Asthma is a chronic condition usually diagnosed in childhood and an important public health concern. We do not fully understand what triggers an asthma attack, although outdoor pollen and moulds may be important. This project will establish the relative importance of pollen and moulds in triggering asthma attacks among Australian children. It will fill gaps in our knowledge of environmental triggers of asthma. Such knowledge will improve asthma management and ultimately public health.
Early Life Arsenic Exposure Alters Lung Development And Inflammatory Responses To Virus And Cigarette Smoke
Funder
National Health and Medical Research Council
Funding Amount
$455,380.00
Summary
The contamination of drinking water sources with arsenic is a global health issue affecting millions. While arsenic is a well known cancer causing agent, recent evidence suggests that early life arsenic exposure via drinking water increases the risk of obstructive lung disease in later life. This project aims to examine how the timing and dose of arsenic exposure influences lung development and the response to respiratory insults including viral infection and cigarette smoke.
Deciphering Posttranslational Codes Of The Dioxin Receptor
Funder
National Health and Medical Research Council
Funding Amount
$540,083.00
Summary
The dioxin receptor (DR) is a protein which protects human cells by binding xenobiotics, ie foreign or anti-nutritional chemicals found in food sources and the general environment. When these chemicals bind the DR, it becomes an active gene regulatory protein, turning on genes that are involved in breakdown and excretion of the xenobiotics. Recently it has been found that the DR performs other important functions which are unrelated to xenobiotic breakdown. These include blood vessel development ....The dioxin receptor (DR) is a protein which protects human cells by binding xenobiotics, ie foreign or anti-nutritional chemicals found in food sources and the general environment. When these chemicals bind the DR, it becomes an active gene regulatory protein, turning on genes that are involved in breakdown and excretion of the xenobiotics. Recently it has been found that the DR performs other important functions which are unrelated to xenobiotic breakdown. These include blood vessel development in the embryonic liver and hormone production during the estrous cycle. These observations imply that natural physiological mechanisms also exist for activating the DR, providing it with a separate code to perform these innate functions. A number of man-made chemicals, such as dioxins and PCBs, are especially good at activating the DR. However, they have chlorinated chemical structures, which are not broken down by the protective system. This creates a wide range of severe toxic responses. It has been established that toxicities result from persistent hyperactivation of the DR, but how this hyperactivation induces the toxic outcomes is not known. As the DR has roles in early development and estrogen production, this project will investigate how the DR becomes activated to perform these functions. Our initial experiments have shown that the DR can be activated by normal cell signalling systems, which induce distinct modifications (a distinct code) to the protein. We are comparing this code of modifications to those induced by xenobiotics which are able to be broken down, and dioxins which are resistant to breakdown. We hypothesise that dioxins will give an excessive code of activating modifications, resulting in uncontrolled regulation of genes used in both the developmental and xenobiotic breakdown pathways. We will explore the hypothesis that this gross loss of gene regulatory control underpins the multifarious toxicities of dioxin poisoning.Read moreRead less
Comorbid Affective Disturbance In A Model Of Absence Epilepsy - Shared Causation Linked To Morphological Abnormality?
Funder
National Health and Medical Research Council
Funding Amount
$502,650.00
Summary
People with epilepsy commonly suffer from severe mood disorders, such as depression and anxiety. These disturbances are underdiagnosed and undertreated, and are often more debilitating than the epilepsy. This project will investigate whether treatment of psychiatric disturbance with antidepressants also results in reduced seizure incidence in an animal model of epilepsy. Results generated from the study will provide clinicians strong rationale for aggressive treatment of such mood complaints.
Genetic Epidemiology Of Chronic Respiratory Diseases From Childhood To Adulthood: A Prospective Study Of Sibships
Funder
National Health and Medical Research Council
Funding Amount
$889,220.00
Summary
Chronic Respiratory Diseases (CRDs) are a major public health problem. It is known that CRDs change over time but we have no information on causes of these changes. Some childhood asthmatics continue to have asthma as adults and-or develop Chronic Obstructive Pulmonary Disease (COPD) while others are free of any adult CRD. Some of those who do not have childhood asthma develop asthma and-or COPD as adults while the others remain free of CRDs from childhood to adulthood. To investigate risk facto ....Chronic Respiratory Diseases (CRDs) are a major public health problem. It is known that CRDs change over time but we have no information on causes of these changes. Some childhood asthmatics continue to have asthma as adults and-or develop Chronic Obstructive Pulmonary Disease (COPD) while others are free of any adult CRD. Some of those who do not have childhood asthma develop asthma and-or COPD as adults while the others remain free of CRDs from childhood to adulthood. To investigate risk factors for these changes, following up siblings over time is a powerful tool. As siblings share the childhood environment but not the adult environment, it helps to disentangle childhood environment, adult environment and genetic factors. The Tasmanian Asthma Study (TAS) is amongst worlds' major longitudinal respiratory studies and it is unique because it was conceived as a family study, with all the family members and the family environment being surveyed. TAS commenced in 1968 by investigating 8,585 school children born in 1961 (referred to as probands), their parents (16,267) and siblings (21,044). By the end of 2006, we will have completed the 37-year follow-up of the TAS probands, which focuses on non-genetic risk factors for middle-age CRDs. This follow-up together with baseline data now provides a unique opportunity for conducting a sibling study, which can concurrently examine genes, childhood environment and adult environment for change in CRDs. Also, it will provide a platform for future studies to investigate the progression of CRDs in this family cohort. Therefore, we now seek funding to extend the current follow-up to include the siblings. This will be the world's only population-based respiratory sibling study that spans childhood to adulthood. This will provide information for preventing chronic respiratory morbidity and disability in the future, which will be original and significant not only in Australia but also internationally.Read moreRead less
Exposure And Risks From Persistent Organic Pollutants Through Consumption Of Traditional Seafood
Funder
National Health and Medical Research Council
Funding Amount
$322,042.00
Summary
For many coastal Aboriginal and Torres Strait Islander people, local marine resources provide an important and integral aspect of the communities' diet, culture and traditions. The health benefits associated with seafood consumption have been well documented. On the other hand, many environmental contaminants accumulate in the marine environment. In particular persistent organic pollutants (POPs) have the potential to accumulate to elevated levels in the marine food chain, including humans. Cons ....For many coastal Aboriginal and Torres Strait Islander people, local marine resources provide an important and integral aspect of the communities' diet, culture and traditions. The health benefits associated with seafood consumption have been well documented. On the other hand, many environmental contaminants accumulate in the marine environment. In particular persistent organic pollutants (POPs) have the potential to accumulate to elevated levels in the marine food chain, including humans. Consumption of food contaminated with POPs can pose a risk of causing adverse health effects, including cancer, endocrine disruption, developmental and immunotoxic responses. Recent studies in Queensland have shown elevated concentrations of POPs, specifically dioxins, in the near shore marine environment. Concentrations present in dugong and turtle tissues were found to be among the highest reported compared to other marine biota worldwide. These species represent an integral part of the traditions and diet for many coastal Aboriginal and Torres Strait Islander communities. However, to date no information on exposure to these compounds from locally sourced seafood exists in Australia. The proposed study will redress this lack of information and provide an understanding of the risks associated with the consumption of traditional seafood from local contaminated areas. In collaboration with the Quandamooka community, Moreton Bay in South East Queensland this will provide a case study with the objectives of: 1. Assessing the qualitative and quantitative risks associated with consumption of traditional and contemporary seafood sourced from local contaminated areas. 2. Providing communities with a thorough understanding of food contamination and building internationally competitive capacity in Australian Indigenous researchers. 3. Develop risk management options that allow informed decisions making on POP exposure and are acceptable to the community.Read moreRead less