Human Amnion Cells As A Therapy For Preterm Lung Disease
Funder
National Health and Medical Research Council
Funding Amount
$104,664.00
Summary
Premature babies often have serious breathing difficulties due to immature lungs, and these can remain life long. Amnion cells, which are from the membrane that surrounds the baby and placenta in the womb, behave like stem cells and can develop into lung cells. Using an animal model, we will give these cells to damaged premature lungs, and see if they can repair the lung tissue. We are hopeful this will improve the survival of premature babies and help prevent long term lung disease.
Translating Advances In Cell-free Fetal Nucleic Acids Into Better Perinatal Care
Funder
National Health and Medical Research Council
Funding Amount
$187,322.00
Summary
My overall aim is to translate advances in biotechnology into better care for pregnant women. My first aim is to study brain development by analyzing the fluid that surrounds the unborn baby. This work may provide more information to women about their baby’s expected outcome. My second aim is to evaluate the impact of new DNA technologies on the detection of genetic conditions in the baby before birth. This work will confirm if this new generation of tests is fulfilling our high expectations.
Is Lactic Acid Concentration In Amniotic Fluid A New Predictor Of Labour Dystocia?
Funder
National Health and Medical Research Council
Funding Amount
$682,538.00
Summary
This study will establish whether higher concentrations of lactate in the amniotic fluid of labouring women can be used as a surrogate marker to improve diagnoses of presence or absence of dystocia. Labour dystocia is a serious problem experienced during childbirth, and is one of the main indications for emergency caesarean section or forceps or vacuum delivery. Although dystocia is a common clinical problem, the current lack of a precise definition leads to considerable variation in practice.
Role Of Amnion Derived Stem Cells In Reducing Lung Fibrosis
Funder
National Health and Medical Research Council
Funding Amount
$349,485.00
Summary
Human amniotic epithelial multipotential cells from the term placenta are being studied in a mouse model of pulmonary fibrosis-emphysema to demonstrate their anti-inflammatory, anti-fibrotic, immune-suppresive and lung repair capability. The availability and numbers of these cells from discarded placentas at birth are unlimited and their potential to repair serious lung disease would have strong clinical interest as a new stem cell therapy.
Understanding and modifying vortex structures in wind turbine wakes. At a fundamental research level, Australia's active participation in this area of national priority and research strength will be advanced through our published research, which will increase our understanding of wind turbine wakes and their effects in wind farms. This understanding will then be used to produce improved methods of predicting wind turbine performance. Such methods are needed by wind energy designers to produce b ....Understanding and modifying vortex structures in wind turbine wakes. At a fundamental research level, Australia's active participation in this area of national priority and research strength will be advanced through our published research, which will increase our understanding of wind turbine wakes and their effects in wind farms. This understanding will then be used to produce improved methods of predicting wind turbine performance. Such methods are needed by wind energy designers to produce better wind farms. It will also be used to recommend how to improve the aerodynamic design of turbine components, such as the blades and hub. Numerical tools will be developed for industry use, and training will be provided to personnel, thereby increasing the capabilities of Australia's growing wind energy industry.Read moreRead less
Reducing rocket resonance is the key to safer spaceflight. This fellowship considers a particularly dangerous component of rocket launch, which is the potential for destructive feedback loops to form either in the nozzle, or between the nozzle and the launch pad. CI Edgington-Mitchell is a world leader in the study of resonance in jet engines, having developed best-in-field methodologies for the problem. In this innovative fellowship, he will apply these methodologies to better understand the da ....Reducing rocket resonance is the key to safer spaceflight. This fellowship considers a particularly dangerous component of rocket launch, which is the potential for destructive feedback loops to form either in the nozzle, or between the nozzle and the launch pad. CI Edgington-Mitchell is a world leader in the study of resonance in jet engines, having developed best-in-field methodologies for the problem. In this innovative fellowship, he will apply these methodologies to better understand the dangerous resonances that can occur during rocket launch, using a combination of experimental, numerical, and theoretical techniques, in partnership with NASA, Stanford, and the CNRS.Read moreRead less