Effects Of Current And Plain Cigarette Package Design On Smokers Cigarette Evaluation
Funder
National Health and Medical Research Council
Funding Amount
$654,339.00
Summary
This project proposes to better understand the role of cigarette pack design on consumers' judgements that some cigarettes are safer than others. Three experimental studies are proposed, which will evaluate the influence of pack branding and colours, the potential impact of plain packaging, and the effect of larger size health warnings on consumer perceptions of cigarette health risks.
Bronchopulmonary Dysplasia – A Regenerative Medicine Approach
Funder
National Health and Medical Research Council
Funding Amount
$480,406.00
Summary
Bronchopulmonary dysplasia is a major leading cause of morbidity and mortality in premature babies. There is no cure. We have previously shown that amnion epithelial cells can reduce the extent of lung damage during early stages of lung development. We aim to understand how amnion cells can promote repair by interacting with existing cell types in order to restore normal lung structure and function. The outcomes from this study will help design clinical trials and develop new therapies.
Second Trimester Intra-amniotic Treatment For Early Preterm Birth
Funder
National Health and Medical Research Council
Funding Amount
$392,420.00
Summary
Preterm birth is the leading cause of neonatal death and disability in Australia today, with those born before 32 weeks' completed gestation at the highest risk. Preventing these early preterm births requires treatment of the causative uterine infection. This proposal is to conduct the first study of direct intraamniotic antibiotic treatment of uterine Ureaplasma infection in a clinically relevant, large animal model of second trimester pregnancy.
This project will test if the ratio of the two different estrogens found in the blood of pregnant women is the critical factor in determining the onset of contractions in the uterus at labour. The studies will also determine the role of a newly discovered receptor for estrogens in allowing powerful contractions at labour. Results will allow development of new treatments to prevent premature birth that block the actions of estrogen at this new receptor or change the ratio of the two estrogens.
Regulation Of Progesterone Action In Human Parturition.
Funder
National Health and Medical Research Council
Funding Amount
$314,983.00
Summary
Premature birth is the leading cause of neonatal death and sickness, and numbers are increasing due to our ignorance of the biology of labour. Progesterone maintains pregnancy and its withdrawal results in birth, but how this is achieved in humans is unknown. This project will determine the molecular mechanisms by which progesterone action is regulated during the transition from pregnancy to birth. This data will guide new strategies to prevent premature birth.
Dystrophin Gene Repair In Mdx Mouse Myoblasts And Bone Marrow Cells As A Basis For Autologous Transplant In Human DMD
Funder
National Health and Medical Research Council
Funding Amount
$422,036.00
Summary
The muscular dystrophies are inherited diseases that lead to muscle wastage and severe disabilities. The most severe forms result in the early death of newborns, but a large number are diagnosed in children showing early mild symptoms and progress steadily to severe disabling forms in the juvenile and young adult. Perhaps the most devastating of these dystrophies is Duchenne Muscular Dystrophy (DMD). This condition affects 1 in 3,300 boys, who show symptoms at around 5 years of age until wheelch ....The muscular dystrophies are inherited diseases that lead to muscle wastage and severe disabilities. The most severe forms result in the early death of newborns, but a large number are diagnosed in children showing early mild symptoms and progress steadily to severe disabling forms in the juvenile and young adult. Perhaps the most devastating of these dystrophies is Duchenne Muscular Dystrophy (DMD). This condition affects 1 in 3,300 boys, who show symptoms at around 5 years of age until wheelchair confinement by early teens. DMD boys undergo major clinical and surgical treatments which at present only provide small but significant improvements to their lives. The median age at death for Duchenne boys is 22 years. The cause of DMD has been known for almost 2 decades and is a defect in just a single component of muscle, Dystrophin which is produced by muscle cells. In general, boys with DMD possess Dystrophin which is missing an important part that prevents the breakdown of muscles during activity. As a consequence, all the muscles in DMD boys slowly break down over their lifetime until they die because the muscle which helps in drawing breath (Diaphragm) is no longer capable of helping them to breathe. The muscle component Dystrophin is produced by a gene (the dys gene) and the defect of Dystrophin is caused by a defect in the dys gene. If the dys gene defect was able to be corrected in boys with DMD, their Dystrophin may also be corrected and the breakdown of their muscle prevented. We have been able to correct the dys gene in muscle cells from a mouse with DMD. We wish to improve this technology and allow muscle to be repopulated with genetically corrected cells to form a basis for treatment of human DMD. In this way we hope to significantly improve and lengthen these boys' lives and even lead to a cure for DMD and other genetic muscle diseases.Read moreRead less
Novel Methods For Early Bedside Detection And Prognosis Of Preterm Brain Injury
Funder
National Health and Medical Research Council
Funding Amount
$630,880.00
Summary
Quick and robust assessments of preterm brain activity are critical for identifying early markers of brain injuries. We need to predict poor outcomes before they develop in order to give clinicians the best chance of helping sick infants. This project will develop and validate new non-invasive methods for assessing early brain activity in preterm infants at risk of developing poor neurodevelopmental outcomes.
Regulation Of Prostaglandin Endoperoxide Synthase-2 In The Human Fetal Membranes At Birth
Funder
National Health and Medical Research Council
Funding Amount
$249,750.00
Summary
Preterm birth with the resulting immaturity of babies is the leading cause of death and disease among newborns. Early birth occurs in 6 to 11% of pregnancies, and its rate is slowly increasing in industrialized countries. We need a much better knowledge of the regulation of the parturition process to find ways to reverse this trend. Prostaglandins are hormonal substances that stimulate uterine contractions, cervical dilatation and membrane rupture. Intrauterine tissues produce prostaglandins, an ....Preterm birth with the resulting immaturity of babies is the leading cause of death and disease among newborns. Early birth occurs in 6 to 11% of pregnancies, and its rate is slowly increasing in industrialized countries. We need a much better knowledge of the regulation of the parturition process to find ways to reverse this trend. Prostaglandins are hormonal substances that stimulate uterine contractions, cervical dilatation and membrane rupture. Intrauterine tissues produce prostaglandins, and an increase of prostaglandin levels in the uterus is likely responsible for inducing labour both normally and preterm. We have previously identified an enzyme protein in the fetal membranes, called prostaglandin synthase-2, that has a key role in the synthesis of intrauterine prostaglandins during pregnancy. This enzyme is increasingly expressed before labour onset. In the present application, we propose studies to determine what causes the increased expression. We hypothesize that the gene encoding this enzyme is specifically activated in the fetal membranes in preparation for labour. We will define the mechanism of regulation by determining the activity of the gene in tissues from women who deliver either spontaneously or without labour at term and preterm. Further, we will determine the interaction of regulatory proteins with the prostaglandin synthase-2 gene in these pregnancies in order to understand the mechanisms of regulation at the molecular level. Finally, we will conduct cell culture studies to experimentally manipulate prostaglandin synthase-2 gene activity in fetal membrane cells. As an overall outcome of this work, new targets may be identified for drugs to disrupt prostaglandin synthase-2 gene activation specifically in the fetal membranes. The long term perspective is to block prostaglandin synthesis in the uterus in order to suppress preterm labour and prevent preterm birth.Read moreRead less
We aim to predict neurodevelopmental disability in babies born very preterm, earlier and more accurately than currently possible, by identifying structural and functional connectivity features that correlate with clinical measures of motor and neurodevelopmental functions. To do this we will use brain magnetic resonance imaging (MRI), dense array electroencephalography (EEG) and structured clinical neurodevelopmental assessments to provide a cutting edge view of the state of brain development.
Imaging Lung Aeration And Lung Motion Following Very Premature Birth
Funder
National Health and Medical Research Council
Funding Amount
$517,631.00
Summary
Using a synchrotron as an X-ray source, we will image the lungs as they aerate at birth and optimise ventilation strategies that improve lung aeration while minimising the risk of ventilation-induced lung injury.