Prof Paterson is an Infectious Diseases Physician studying the molecular and clinical epidemiology of infections with Gram negative bacteria producing newer beta-lactamases.
Loop-mediated Isothermal Amplification(LAMP): A Novel Tool For The Diagnosis Of Mixed Malaria Infections In Elimination Settings
Funder
National Health and Medical Research Council
Funding Amount
$101,877.00
Summary
The malaria elimination agenda will require the development of novel, field applicable diagnostic tools to detect asymptomatic carriers of P.falciparum and non-falciparum malaria infections. Loop-mediated isothermal amplification (LAMP) has been demonstrated to be a novel, sensitive, specific nucleic acid amplification technique. My project aims to optimise LAMP into a high-throughput field applicable molecular diagnostic tool capable of diagnosing malaria in elimination settings
The Ongoing Evolution Of Class 1 Integrons And The Recruitment Of New Resistance And Virulence Genes Into Pathogens
Funder
National Health and Medical Research Council
Funding Amount
$526,878.00
Summary
Bacteria are remarkably adaptive and evolve in ways that plants and animals do not. One of these ways is Lateral Gene Transfer (LGT), a process allowing one bacterial cell in a community to give genes that have been developed or acquired to other members of the community. This is a process that has led to the problem of multi drug resistance. This project aims to understand and thereby limit the movement of resistance genes from harmless bacteria into those that cause disease in humans.
This fellowship aims to develop evidence-based clinical and public health approaches to the control of multi-drug resistant tuberculosis. Projects include identifying optimal treatment approaches to drug resistant tuberculosis by using meta-analyses; analysing the cost-effectiveness of strategies to prevent drug resistant tuberculosis; understanding transmission of drug resistance within households and implementing a major clinical trial of antibiotic therapy to prevent the disease.
Do Rapid Detection & Isolation Of Colonised Patients Reduce MRSA Spread? An Epidemiological, Economic & Modelling Study
Funder
National Health and Medical Research Council
Funding Amount
$354,299.00
Summary
Methicillin-resistant Staphylococcus aureus (MRSA) is the antibiotic resistant form of Golden Staph. It is one of the most common causes of hospital acquired infection. Despite the presence of MRSA for more than 40 years in our hospitals, the most efficient ways of controlling it are still debated. Some experts recommend swabbing all high risk patients for MRSA, isolating those found to be carriers it in single rooms or with other carriers and using special precautions, such as gowns and gloves, ....Methicillin-resistant Staphylococcus aureus (MRSA) is the antibiotic resistant form of Golden Staph. It is one of the most common causes of hospital acquired infection. Despite the presence of MRSA for more than 40 years in our hospitals, the most efficient ways of controlling it are still debated. Some experts recommend swabbing all high risk patients for MRSA, isolating those found to be carriers it in single rooms or with other carriers and using special precautions, such as gowns and gloves, when in contact with these patients. One of the problems with this approach is that it takes 2-3 days to detect MRSA from swabs using the usual culture methods in the microbiology laboratory. This means that there are delays in instituting control measures, which may reduce their effectiveness. We plan to test whether use of isolation and special precautions is better than our current practices in preventing the spread of MRSA from patient to patient in the Royal Melbourne Hospital intensive care unit. Patients will be swabbed several times during their admission to see if they are carrying MRSA. We will use new, rapid laboratory methods that can detect MRSA within hours from these patient specimens. This will mean that if patients are found to be carriers, isolation and special precautions can be implemented early. We will compare how many people get MRSA in the time when we are not using any special precautions with how many get it in the time when we are. We are also going to undertake an economic analysis to see whether, even if these new diagnostic methods are more expensive that standard methods, they may still be worth the cost if we can prevent infections in patients. This study will help infection control practitioners to decide whether patients should be isolated with special precautions if they are MRSA carriers. The results of this study will contribute to better patient outcomes, lower hospital costs and more efficient use of resources.Read moreRead less
Diversity And Virulence Determinants Among 1000 Clinical And Environmental Isolates Of Burkholderia Pseudomallei
Funder
National Health and Medical Research Council
Funding Amount
$517,639.00
Summary
Melioidosis is an important infection in tropical northern Australia. It is a common cause of fatal pneumonia and blood infection in the region. Melioidosis results from infection with a soil bacterium. This project builds on the existing melioidosis collaboration between researchers in northern Australia and overseas to determine how the melioidosis bacterium can be so virulent and whether only a subset of the melioidosis bacteria found in the environment are capable of infecting humans.
Continuation Of The Darwin Prospective Melioidosis Study
Funder
National Health and Medical Research Council
Funding Amount
$567,976.00
Summary
Melioidosis is an important infection in northern Australia. It is a common cause of fatal pneumonia and blood infection in the region. This project builds on the existing melioidosis collaboration between researchers in northern Australia and overseas. The aim is to use new DNA fingerprinting methods developed specifically for the melioidosis bacteria to understand better why melioidosis can be such a severe disease and how it spreads from the environment to humans and animals and also how it h ....Melioidosis is an important infection in northern Australia. It is a common cause of fatal pneumonia and blood infection in the region. This project builds on the existing melioidosis collaboration between researchers in northern Australia and overseas. The aim is to use new DNA fingerprinting methods developed specifically for the melioidosis bacteria to understand better why melioidosis can be such a severe disease and how it spreads from the environment to humans and animals and also how it has possibly spread within Australia and overseas. Our studies in the Darwin rural region have found an alarmingly high rate of contamination of bore water with the melioidosis bacteria. We need to evaluate further the magnitude and public health implications of this contamination. Better recognition and treatment of melioidosis has resulted in a halving of the death rate from this disease in northern Australia (mortality decreased from 40%-15%). This study also aims to develop and test a new DNA detection system for rapid diagnosis of melioidosis. This will enable even earlier intervention with treatment specific for melioidosis which will hopefully decrease the mortality further.Read moreRead less
Molecular Epidemiology Of Melioidosis In Australia
Funder
National Health and Medical Research Council
Funding Amount
$357,875.00
Summary
Melioidosis is an important infection in northern Australia. It is a common cause of fatal pneumonia and blood infection in the region. Two outbreaks of melioidosis with fatalities occurring in remote Aboriginal communities have been linked to contamination of the community water supply with the melioidosis bacteria, Burkholderia pseudomallei. In addition, a rare form of melioidosis affecting the brain and spinal cord has resulted in a number of deaths in healthy Aboriginal people and also a num ....Melioidosis is an important infection in northern Australia. It is a common cause of fatal pneumonia and blood infection in the region. Two outbreaks of melioidosis with fatalities occurring in remote Aboriginal communities have been linked to contamination of the community water supply with the melioidosis bacteria, Burkholderia pseudomallei. In addition, a rare form of melioidosis affecting the brain and spinal cord has resulted in a number of deaths in healthy Aboriginal people and also a number left living in remote communities with severe disabilities such as complete paralysis of both legs. Melioidosis has also been identified in two outbreaks occurring over many years in separate locations in southern Australia. It is thought that it may have been introduced to these regions by imported animals, eg via cattle drives, and human fatalities have occurred after local flooding in these temperate locations. This project is built on the ongoing melioidosis collaboration between researchers in Western Australia, the Northern Territory and Queensland. The aim is to use new DNA fingerprinting methods developed specifically for the melioidosis bacteria to understand better why melioidosis can be such a severe disease and how it spreads from the environment to humans and animals and also how it has possibly spread within Australia and overseas. Better recognition and treatment of melioidosis has resulted in a halving of the death rate from this disease in northern Australia (mortality decreased from 40%-18%). This study aims to give us a better understanding of how this soil and water bacteria interacts with humans to cause such severe disease and will hopefully result in new primary preventative measures to complement the improved diagnosis and treatment.Read moreRead less