There’s recent evidence that children get leaner and fitter during the school term, but become fatter and less fit over the summer holidays. This may be because of differences in activity and diet: on holidays, children may eat more, be less active and have more screen time. We propose to track the time use, diet, fitness and fatness of 9-11 year old children across three school years. If the pattern is confirmed, we should focus more on the home environment, or perhaps encourage summer camps.
Viral Load, HIV Treatment, And HIV Transmission In Serodiscordant Male Homosexual Couples
Funder
National Health and Medical Research Council
Funding Amount
$1,452,298.00
Summary
HIV treatment reduces the concentration of HIV in the body. In heterosexuals, current studies will determine the effectiveness of HIV treatment in preventing onwards HIV transmission. In contrast, there has been very little such research in homosexual men, who comprise 70% or more of people with HIV in Australia. This study will follow for four years over 200 male homosexual couples in which one is HIV positive and the other negative, to investigate the role of HIV treatment in HIV prevention.
The Second Australian Study Of Health And Relationships
Funder
National Health and Medical Research Council
Funding Amount
$1,637,477.00
Summary
The present proposal is for the Second Australian Study of Health and Relationships, a survey of 20,000 Australians aged 16–69, in 2011–12 in order to understand and document the changes in Australian sexual behaviour over the past decade. It is essential that policy and practice in the arena of sexual and reproductive health be evidence-based and that the evidence base be as current as is practicable.
Forecasting The Impact Of Climate Change On Dengue Transmission
Funder
National Health and Medical Research Council
Funding Amount
$506,432.00
Summary
Dengue fever (DF) is the most important mosquito-transmitted viral disease in the world. The large-scale re-emergence of DF in the Asia-Pacific region during the past few decades has renewed its status as a serious international public health problem. Global climate change is anticipated to impact upon the biology and ecology of vectors and consequently the risk of DF transmission. The principal research aim of this study is to project the impact of future climate change on DF.
Turning Points: Breaking Intergenerational Cycles Of Intimate Partner Abuse And Social Adversity
Funder
National Health and Medical Research Council
Funding Amount
$1,328,354.00
Summary
Intimate partner abuse (IPA) is estimated to affect one in four women at some stage in their lives, and to impact on the lives of at least one million Australian children annually. This study will investigate the extent to which exposure to intimate partner abuse during pregnancy and in the first 12 months postpartum predicts child outcomes in middle childhood. The study will provide foundations for better targeting and tailoring of early intervention strategies to support children at risk of ad ....Intimate partner abuse (IPA) is estimated to affect one in four women at some stage in their lives, and to impact on the lives of at least one million Australian children annually. This study will investigate the extent to which exposure to intimate partner abuse during pregnancy and in the first 12 months postpartum predicts child outcomes in middle childhood. The study will provide foundations for better targeting and tailoring of early intervention strategies to support children at risk of adverse outcomes.Read moreRead less
Dengue Transmission Under Climate Change In Northern Australia: Linking Ecological And Population Based Models To Develop Adaptive Strategies
Funder
National Health and Medical Research Council
Funding Amount
$444,293.00
Summary
The mosquito-transmitted viral disease, dengue, is likely to be influenced by climate change. It has been accorded priority for human health adaptation research (National Adaptation Research Plan, Human Health). Dengue has major health impacts in North Queensland, and causes major losses to the Queensland blood supply. The research will develop a model for climate-related changes in the future occurrence of dengue to predict risk in North Queensland and other parts of Australia.