Spatial Analysis Of The An. Punctulatus Group Of Malaria Vectors In Australia And Papua New Guinea.
Funder
National Health and Medical Research Council
Funding Amount
$66,430.00
Summary
Malaria has been eradicated from Australia but the country remains receptive to its reintroduction as the mosquitoes which transmit the disease are still present in the tropical north of the country. These are the Anopheles punctulatus group which are the major malaria vectors in the south west Pacific region. The Australian Army Malaria Institute conducted Operation Anopheles to collect these mosquitoes in northern Australia and Papua New Guinea by detailed surveys with the aid of helicopters a ....Malaria has been eradicated from Australia but the country remains receptive to its reintroduction as the mosquitoes which transmit the disease are still present in the tropical north of the country. These are the Anopheles punctulatus group which are the major malaria vectors in the south west Pacific region. The Australian Army Malaria Institute conducted Operation Anopheles to collect these mosquitoes in northern Australia and Papua New Guinea by detailed surveys with the aid of helicopters and 4-wheel-drive vehicles. These surveys, which were made for a month each year between 1984-1998, represent the most detailed dataset of mosquito locality records that have ever been produced. This project will utilise the computing power of modern Geographical Information Systems (GIS) software and computer induction techniques to spatially map the range of the different mosquitoes collected during Operation Anopheles to highlight environmental characteristics which limit their distribution and to permit control activities to accurately target the species which actually transmit malaria.Read moreRead less
Natural Variation And Genetic Basis Of Dengue Virus Transmission Rate In Australian Mosquitoes
Funder
National Health and Medical Research Council
Funding Amount
$680,088.00
Summary
Dengue fever outbreaks occur in Australia when infected travelers enter the country and are bitten by local mosquitoes. Here we examine the degree of genetic compatibility between mosquitoes and incoming dengue viruses that may affect disease risk for humans. We will identify the mosquito genes that determine the insect’s capacity to transmit dengue virus and develop a geographic map of transmissibility for a range of different dengue strains across Australian populations of the insect.
Release The Sterile Males: A New Direction For Mosquito Population Control Technologies
Funder
National Health and Medical Research Council
Funding Amount
$1,110,112.00
Summary
With over 40% of humans at risk from mosquito-borne disease, new environmentally friendly mosquito control tools are required. We’ve developed a novel sterile male population suppression technology – using neither radiation nor genetic modification – to produce sterile adult male mosquitoes from both male and female larvae. We will show that exposing mosquito larvae to specific RNA molecules can produce fit sterile males adult mosquitoes that can crash mosquito populations in large cage trials
Dynamics Of Malaria Transmission Stages In Host And Vector: Bottlenecks And Their Impact Transmission And Parasite Population Diversity
Funder
National Health and Medical Research Council
Funding Amount
$780,554.00
Summary
The adoption of malaria elimination as the long-term goal requires malaria programs to shift their focus from controlling the burden of malaria disease & deaths to the interruption of transmission itself. This will be impossible without an improved understanding of the processes involved and novel tools directly targeting transmission. We therefore plan to conduct an in-depth examination of bottlenecks to malaria transmission in Papua New Guinea, the country with the highest malaria burden in ou ....The adoption of malaria elimination as the long-term goal requires malaria programs to shift their focus from controlling the burden of malaria disease & deaths to the interruption of transmission itself. This will be impossible without an improved understanding of the processes involved and novel tools directly targeting transmission. We therefore plan to conduct an in-depth examination of bottlenecks to malaria transmission in Papua New Guinea, the country with the highest malaria burden in our region.Read moreRead less
Japanese Encephalitis Virus In Northern Australia And Papua New Guinea:its Ecology And Risk To Australia.
Funder
National Health and Medical Research Council
Funding Amount
$292,045.00
Summary
Japanese encephalitis (JE) virus is a mosquito-transmitted virus of Asia. Infection causes clinical disease in about 1 in 50 people infected, and of these, about 25% will die from a fatal encephalitis (inflammation of the brain), and a further 50% will have lifelong severe disabilities. There are over 50,000 cases annually in Asia, with about 12,000 fatalities. However, many more cases may go unrecognised. The virus normally circulates between mosquitoes and water birds and between mosquitoes an ....Japanese encephalitis (JE) virus is a mosquito-transmitted virus of Asia. Infection causes clinical disease in about 1 in 50 people infected, and of these, about 25% will die from a fatal encephalitis (inflammation of the brain), and a further 50% will have lifelong severe disabilities. There are over 50,000 cases annually in Asia, with about 12,000 fatalities. However, many more cases may go unrecognised. The virus normally circulates between mosquitoes and water birds and between mosquitoes and pigs. The World Health Organization has recognised JE as one of the most important mosquito-borne viruses because of its propensity to spread and to colonise new areas. The virus first appeared in the Torres Strait of northern Australia in 1995, causing three clinical cases of whom 2 died. This was unexpected as the nearest known focus of virus activity was in Bali, over 3000km away. The virus returned again in 1998, with a further case in the Torres Strait and the first case to occur on mainland Australia in Cape York. Both of these patients recovered. We have shown that the virus is established in Papua New Guinea (PNG), where it is spreading rapidly, and our results suggest that PNG was the source of the virus causing the outbreaks in 1995 and 1998. This project is aimed at finding out more about JE virus in PNG, particularly as it relates to spread into northern Australia. The project also seeks to investigate the potential mosquito and animal hosts in Australia that might be involved if the virus becomes established in our wildlife in Cape York. Australia is already known to have suitable mosquito vector species and suitable animal hosts in water birds and feral pigs, but the ecology is not yet understood. Thus the overall aim is to provide information on which a sound risk assessment can be based.Read moreRead less
Dengue is the leading mosquito-borne virus causing morbidity and mortality in the tropics. North Queens land has a history of dengue outbreaks, with 5 outbreaks in the last 3 years. Queensland Health has developed a Dengue Fever Management Plan for north Queensland that has had considerable success in preventing small outbreaks of dengue from developing into large epidemics. The cornerstone of this plan is the application of residual insecticide inside premises near dengue cases to kill the mosq ....Dengue is the leading mosquito-borne virus causing morbidity and mortality in the tropics. North Queens land has a history of dengue outbreaks, with 5 outbreaks in the last 3 years. Queensland Health has developed a Dengue Fever Management Plan for north Queensland that has had considerable success in preventing small outbreaks of dengue from developing into large epidemics. The cornerstone of this plan is the application of residual insecticide inside premises near dengue cases to kill the mosquito vector, Aedes aegypti, before it can spread the virus. While this method is effective, it is labor intensive, requires the cooperation of homeowners who may find it intrusive and exposes nontarget insects and animals to insecticide. We propose to develop a lure and kill strategy to improve the efficacy of vector control while minimising the exposure of nontarget animals. Several chemicals have been identified as highly attractive to dengue mosquitoes. Among these are extracts from water infusions of grass that are highly attractive to egg-laying mosquitoes and emanations from human skin that attract host-seeking mosquitoes. We will develop traps incorporating a. mosquito attractants and b. a killing agent to selectively control Ae. aegypti mosquitoes. These will be collectively called lethal traps. This project will employ the following approach towards the development of a lure and kill strtaegy for dengue control a. determine which compounds are most attractive to north Queensland Ae. aegypti in a laboratory wind tunnel; b. confirm the attraction of these compounds using sticky traps in the field; c. conduct field trials of candidate lethal traps to determine the spacing and density of traps needed to control mosquitoes d. conduct a large field trial to examine the efficacy of the optimised lure and kill strategy. We will also conduct ecological studies on aging and the flight range of Ae. aegypti to enhance the development of the strategy.Read moreRead less
Assessing The Impact Of Climate Change On The Transmission Of Mosquito-borne Diseases In Australia
Funder
National Health and Medical Research Council
Funding Amount
$346,689.00
Summary
Global climate change has potentially serious effects on the transmission of mosquito-borne diseases (MBDs). Bayesian spatiotemporal models will be developed to explore the underlying mechanisms of the current distribution of MBDs and to forecast future changes in pattern of these diseases. The model will be useful in examining where and when MBDs are likely to occur and how the future MBDs control strategies and prevention efforts need to be applied and strengthened in Australia.
Wolbachia And West Nile Virus In Mosquitoes: Friends Or Foes?
Funder
National Health and Medical Research Council
Funding Amount
$561,028.00
Summary
Mosquito-borne viruses pose a great risk to human and animal health. Presence of compentent vectors of several viruses in Australia indicates vulnerability of Australia’s biosecurity. This project will define the mechanisms of inhibition of virus replication in mosquitoes by a symbiotic bacterium which can be utilized in virus inhibition.
Role Of Flavivirus-encoded Small Regulatory RNAs In Virus-mosquito Vector Interactions
Funder
National Health and Medical Research Council
Funding Amount
$547,216.00
Summary
Mosquito-borne diseases are major threats to human health. MicroRNAs are small non-coding ribonucleic acids (RNAs) that play important roles in development, cancer, apoptosis, immunity, longevity, and viral infections. We propose to identify the regulatory microRNAs from flaviviruses and establish their potential function in vector-arboviruses interactions. The project will put Australia at the forefront of research in the most rapidly developing area of microRNA research.
Dissecting The Molecular Basis For Cell Movement And Midgut Colonisation In The Insect Stage Parasite - The Ookinete
Funder
National Health and Medical Research Council
Funding Amount
$48,365.00
Summary
Malaria parasites are a leading cause of infant mortality. Despite their global impact, no vaccine exists to prevent malaria disease and resistance to current drugs is prevalent. Cell movement is an essential process for parasite development yet its potential as a drug target remains unexplored. I seek to shed light on the molecular mechanisms underlying movement, focused on the motile insect stages. Understanding gained here will support the broader goal to identify targets for transmission-blo ....Malaria parasites are a leading cause of infant mortality. Despite their global impact, no vaccine exists to prevent malaria disease and resistance to current drugs is prevalent. Cell movement is an essential process for parasite development yet its potential as a drug target remains unexplored. I seek to shed light on the molecular mechanisms underlying movement, focused on the motile insect stages. Understanding gained here will support the broader goal to identify targets for transmission-blocking development.Read moreRead less