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Using Applied Epidemiology To Respond To Foodborne Diseases And Contaminated Environments
Funder
National Health and Medical Research Council
Funding Amount
$476,728.00
Summary
During this Fellowship I will examine how to prevent foodborne diseases and how public health agencies respond to contaminated environments. To do this, I will harness the revolution in public health from genetic analysis of pathogens and the use of linked datasets to examine environmental health concerns.
Thousands of chemicals are used in Australian workplaces. For many of these chemicals it is not known if they are harmful to people who work with them. Unless we can measure how much of a chemical a worker has been exposed to, we cannot determine if the chemical is harmful. While we can test what chemicals a worker is currently exposed to, it is more difficult to estimate how much chemical exposure they have had in the past. This project aims to improve the ways we estimate past chemical exposur ....Thousands of chemicals are used in Australian workplaces. For many of these chemicals it is not known if they are harmful to people who work with them. Unless we can measure how much of a chemical a worker has been exposed to, we cannot determine if the chemical is harmful. While we can test what chemicals a worker is currently exposed to, it is more difficult to estimate how much chemical exposure they have had in the past. This project aims to improve the ways we estimate past chemical exposure. We will build on existing best-practice methods to improve occupational exposure assessment. New computer technology will be used to develop an intelligent evolving database that can be used when asking people about jobs they have had in the past. Experts can examine the answers to the questions to decide whether the worker was exposed to particular chemicals. New methods of processing information, called artificial neural networks, will be used to automate some of these decisions.Read moreRead less
Investigating Early Life Exposure To Plastic Products In Australia And Subsequent Neurodevelopmental Effects
Funder
National Health and Medical Research Council
Funding Amount
$791,376.00
Summary
Child neurodevelopment disorders like autism are becoming more common. Recent work indicates almost all pregnant mothers in Australia harbour plastic chemicals – bisphenols and phthalates and foetus is also exposed. Human evidence is emerging that higher exposure to plastics during pregnancy may be associated with these disorders. Randomised controlled trials are not possible so high quality birth cohort studies, as proposed here, are required to investigate this issue comprehensively.
Modern Chemical Exposures In Utero And In Infancy, And Their Impact Upon Early Neurodevelopmental Outcomes In The Barwon Infant Study, An Unselected Birth Cohort Study
Funder
National Health and Medical Research Council
Funding Amount
$138,353.00
Summary
I am a paediatric doctor interested in the effects of modern industrial chemicals on children’s development. Even in the womb babies are exposed to industrial chemicals and we know some, like lead, are harmful to developing brains. I am interested in other chemicals that are now suspected to affect development, including the polybrominated diphenyl esters (PBDEs), and I intend to investigate this as part of the Barwon Infant Study, which follows 1250 children from before birth to 3 years.
Exposure To Diesel Exhaust And Lung Cancer Risk In Australia
Funder
National Health and Medical Research Council
Funding Amount
$581,519.00
Summary
Exposure to diesel exhaust increases the risk of lung cancer. One in five Australians is exposed to diesel exhaust in the workplace. This project will provide an exposure-response relation between diesel exhaust and lung cancer based on Australia-specific data. We will also estimate the number of lung cancer cases due to diesel exhaust exposure in Australia. We will do this by studying all miners in WA in the last 15 years, by linking several databases that are available in WA.
Quantitiative Assessment Of Solar UV Exposure For Vitamin D Synthesis In Australian Adults
Funder
National Health and Medical Research Council
Funding Amount
$1,162,536.00
Summary
This research program will add significantly to our current scientific understanding of the dual health outcomes of UV exposure (Vitamin D and skin cancer) . This project is in line with Australia's R and D Priorities, in that it will result in direct and indirect social and economic benefits to Australia by applying the scientific knowledge gained through this research to develop public health initiatives to improve some of Australia's most significant and costly health problems.
The main purpose of this study is to understand how airborne fungi affect asthmatics who are allergic to them. Fungi or moulds release large numbers of spores into the air that are inhaled. In many cases fungal spores outnumber other particles that carry allergen, such as pollens or cat dander, by 100 to 1. This makes fungi the most common potential allergen in the environment. Fungi have been associated with respiratory diseases including fungal sinusitis, asthma, rhinitis, allergic alveolitis ....The main purpose of this study is to understand how airborne fungi affect asthmatics who are allergic to them. Fungi or moulds release large numbers of spores into the air that are inhaled. In many cases fungal spores outnumber other particles that carry allergen, such as pollens or cat dander, by 100 to 1. This makes fungi the most common potential allergen in the environment. Fungi have been associated with respiratory diseases including fungal sinusitis, asthma, rhinitis, allergic alveolitis and sick building syndrome. Largely due to their diversity and complexity, allergenic fungi have not been well studied and the ways in which individuals vary when inhaling spores is not known. Unlike other allergenic particles, it is unlikely that fungal spores release their allergen as soon as they are inhaled because we have shown in earlier in vitro studies that fungi continue to release allergen over time and this is likely to be the case when they are inhaled. Our laboratory has developed two new techniques that allow us to measure how many spores people inhale and whether they are allergic to them. This study will use these tools to detect and identify the important allergenic fungi involved in domestic and outdoor exposure of asthmatics, the degree of contribution to the total allergen load to which subjects are exposed and identify in what conditions fungi are the causal agents in location-specific symptoms. This study will also investigate allergen production of fungi in situ in the human nose, which will have application in allergic sinusitis and asthma amongst other respiratory diseases. We will investigate how readily allergenic spores germinate in the nose and under what conditions they release allergen.Read moreRead less
Drug-related deaths in Australia account for 6.6% of all deaths (ABS 2009). In much of the rural Asia-Pacific, pesticide poisoning and snakebite are major problems. We propose an integrated and international human toxicology research program covering medicine and chemical poisoning, serious adverse drug reactions, snake and spider bite. Our focus is on the applied research needed to detect new problems and rapidly translate early findings into better treatment, regulations & policy.