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Characterisation of Wood Dust Exposures and Its Effects on Respiratory Health. In Australia, the wood processing industry is the second largest manufacturing industry employing around 115,000 people. Exposure and inhalation of wood dust can cause serious health effects in the human respiratory systems and considerable medical costs of over hundreds million dollars per year directly and indirectly. This project aims to undertake a comprehensive research study through the characterisation of wood ....Characterisation of Wood Dust Exposures and Its Effects on Respiratory Health. In Australia, the wood processing industry is the second largest manufacturing industry employing around 115,000 people. Exposure and inhalation of wood dust can cause serious health effects in the human respiratory systems and considerable medical costs of over hundreds million dollars per year directly and indirectly. This project aims to undertake a comprehensive research study through the characterisation of wood dust exposures, development of predictive models for health risk assessment and optimisation of ventilation systems. The outcomes of this research may lead to improved preventative measures, reducing occupational diseases thereby cutting the socio-economic burden on the Australian community.Read moreRead less
Developing an integrated predictive model for optimal design of ventilation systems in buildings. This project will undertake a comprehensive study to characterize indoor contaminant exposure to develop an integrated predictive model for optimal design of ventilation systems. The outcomes of this research may lead to improved preventative measures, reducing occupational diseases and cutting socio-economic burden to the Australian community.
Mathematical Modelling For Improved Planning Of Infectious Diseases Control Policy
Funder
National Health and Medical Research Council
Funding Amount
$2,750,000.00
Summary
We will develop high-level technical capacity in mathematical modeling of infectious disease transmission and control in Australia, with a focus on research that informs health policy. The aim is to assist Australia to have efficient and effective control strategies and help to prepare us against the threat of emerging infections. Priority areas are vaccination programs, HIV-AIDS, emerging infections and bio-terrorism. Six talented young researchers will be trained by the lead applicant team. To ....We will develop high-level technical capacity in mathematical modeling of infectious disease transmission and control in Australia, with a focus on research that informs health policy. The aim is to assist Australia to have efficient and effective control strategies and help to prepare us against the threat of emerging infections. Priority areas are vaccination programs, HIV-AIDS, emerging infections and bio-terrorism. Six talented young researchers will be trained by the lead applicant team. Together, we will develop a prominent and experienced research team capable of sustaining international quality research into the future. Their work will meet immediate, existing policy needs at state, national and global levels. The program includes the establishment of a Network of Infectious Diseases Modellers of Australia (NIDMA) as a research resource of national expertise, peer support and a means of ongoing communication and collaboration in infectious diseases control. The critical mass of modeling expertise that we create will be sustainable long-term, and will expand to support research concerned with chronic and other non-infectious diseases after the lifetime of the grant.Read moreRead less
Modelling The Biology And Transmission Of Influenza Virus - Learning From 1918-19 And Other Outbreaks
Funder
National Health and Medical Research Council
Funding Amount
$114,222.00
Summary
In preparing for a future pandemic of influenza, it is important to learn as much as possible from what happened in the past, particularly from the devastating pandemic of 1918-19. This project will collate detailed information about the spread of influenza in past outbreaks and create a publicly accessible data-base. Mathematical methods will be used to analyse historic and contemporary data, so as to provide better understanding of the spread of influenza, and of the likely effects of social a ....In preparing for a future pandemic of influenza, it is important to learn as much as possible from what happened in the past, particularly from the devastating pandemic of 1918-19. This project will collate detailed information about the spread of influenza in past outbreaks and create a publicly accessible data-base. Mathematical methods will be used to analyse historic and contemporary data, so as to provide better understanding of the spread of influenza, and of the likely effects of social and medical measures for its control. An important theme of the project is to consolidate our knowledge about how past exposure to non-pandemic influenza could provide short-lived protection against any new pandemic, and to explore the implications of this for prevention today. Another theme is to explore the severity of influenza during pandemics, and to identify social and medical factors that might reduce the dose of virus transmitted, or otherwise reduce the severity of infection. The insights from the modeling will also help to identify gaps in knowledge and understanding about the basic biology of influenza, stimulate new research to fill those gaps, and thus offer the prospect of more effective vaccines and treatments for the future control of influenza.Read moreRead less
Who acquires infection from whom across international borders? New approaches for control of emerging infections through understanding travel patterns. Mathematical modelling of data on travellers traversing Australia's borders and their contact patterns can be used to understand the pathways by which infectious diseases enter and spread in Australia. Currently available social contact data which informs models are inadequate and outdated. Gathering new data relevant to modern society will help ....Who acquires infection from whom across international borders? New approaches for control of emerging infections through understanding travel patterns. Mathematical modelling of data on travellers traversing Australia's borders and their contact patterns can be used to understand the pathways by which infectious diseases enter and spread in Australia. Currently available social contact data which informs models are inadequate and outdated. Gathering new data relevant to modern society will help control future infectious disease threats to our society. Our aim is to collect detailed, unique data on demography, behavioural and social patterns of travellers and residents, and use this to develop mathematical models to evaluate effective control measures for emerging infections in Australia. This study will make a unique contribution to national disease control policy.Read moreRead less
Developing a disability policy model to target the prevention or reduction of limitations on functioning and wellbeing. With the ageing of Australian society the challenge for public health is shifting from preventing death and disease onset to supporting healthy and productive ageing. The disability policy model will allow cost-effective targeting of interventions to reduce or prevent onset of disability or reduce its severity particularly among older Australians.
Predictive analytics from at home telemonitoring of vital signs. Predictive analytics from at home telemonitoring of vital signs. This project aims to reduce unscheduled admissions to hospital, by developing statistical models of people’s health using longitudinal measurements of vital signs and questionnaires. Hospital costs are becoming unsustainable and will overwhelm state budgets within thirty years. Telehealth monitoring to manage chronic disease is becoming increasingly routine internatio ....Predictive analytics from at home telemonitoring of vital signs. Predictive analytics from at home telemonitoring of vital signs. This project aims to reduce unscheduled admissions to hospital, by developing statistical models of people’s health using longitudinal measurements of vital signs and questionnaires. Hospital costs are becoming unsustainable and will overwhelm state budgets within thirty years. Telehealth monitoring to manage chronic disease is becoming increasingly routine internationally and should reduce unnecessary hospital admissions and health service costs. To scale up telehealth services nationally, automated means of assessing changes in an individual health status are needed. This project’s automated risk assessment models are expected to identify exacerbations and orchestrate an optimal response from health services to reduce unscheduled admissions to hospital.Read moreRead less
Building Citizenship Capacity in Young Adults With and Without Cerebral Palsy. This project will investigate practical aspects of citizenship participation within the context of a young adult population, as different from frequently reported theoretical views on citizenship. Specifically, the aim is to identify strategies necessary for building citizenship capacities for young adults with cerebral palsy (CP), as they are now living longer, but not eligible for care at the same level as during sc ....Building Citizenship Capacity in Young Adults With and Without Cerebral Palsy. This project will investigate practical aspects of citizenship participation within the context of a young adult population, as different from frequently reported theoretical views on citizenship. Specifically, the aim is to identify strategies necessary for building citizenship capacities for young adults with cerebral palsy (CP), as they are now living longer, but not eligible for care at the same level as during school years. Gaining capacities for success as a participating community member, young adults with CP need opportunities to manage not only physical and economic demands, but also develop knowledge and competencies necessary to engage in civic and social reciprocity within the community.Read moreRead less
Linking for Life: Enhancing pathways to well-being for all Australians. The Linking for Life Project will identify pathways to wellbeing and better social outcomes across the life-course for high-risk/vulnerable individuals and their families to streamline service provision, improve outcomes and identify cost-efficiencies across government agencies. The work will expand cross-sectoral data linkage capability, enhancing research capacity to generate evidence-based policy to improve integrated ser ....Linking for Life: Enhancing pathways to well-being for all Australians. The Linking for Life Project will identify pathways to wellbeing and better social outcomes across the life-course for high-risk/vulnerable individuals and their families to streamline service provision, improve outcomes and identify cost-efficiencies across government agencies. The work will expand cross-sectoral data linkage capability, enhancing research capacity to generate evidence-based policy to improve integrated service delivery across government. The project will also trial innovative data linkage models including the creation of data repositories to improve efficiency for data provision and access, which will have application nationally and enable more timely access to whole-population linked cross-sector data.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0346702
Funder
Australian Research Council
Funding Amount
$193,000.00
Summary
High Performance Liquid Chromatography - Inductively Coupled Plasma - Mass Spectrometry (HPLC-ICPMS). HPLC-ICP-MS is the most reliable cutting edge technology for speciation of metals and metalloids in biological and environmental matrices, and is essential for toxicological studies, which is a major aim behind NRCET's establishment. It will provide a very powerful utility to fill a badly needed knowledge gap for our research and serve the needs of both postgraduate students and postdoctoral fel ....High Performance Liquid Chromatography - Inductively Coupled Plasma - Mass Spectrometry (HPLC-ICPMS). HPLC-ICP-MS is the most reliable cutting edge technology for speciation of metals and metalloids in biological and environmental matrices, and is essential for toxicological studies, which is a major aim behind NRCET's establishment. It will provide a very powerful utility to fill a badly needed knowledge gap for our research and serve the needs of both postgraduate students and postdoctoral fellows. This technology will provide new opportunities in research. It will strengthen our linkages within Faculty of Heath Sciences and with our research partners in CQU, QUT and Griffith and enforce our strong national and international reputation.Read moreRead less