Improving Respiratory Transition And Outcomes Of Newborn Infants
Funder
National Health and Medical Research Council
Funding Amount
$262,251.00
Summary
Effective mask ventilation is the most important intervention at birth that can reduce mortality and disability in term and preterm infants. I will develop strategies to help clinicians improve their resuscitation skills. I will also study new ways to better support babies’ transition after birth, to improve their short and long term outcomes. The results of this research will change the way newly born babies are cared for around the world.
Role Of Placental Heme-oxygenase Pathway In Regulating Preterm Neonatal Cardiovascular Function
Funder
National Health and Medical Research Council
Funding Amount
$176,719.00
Summary
Babies born prematurely are more likely to experience problems as a result of being born early with males doing worse than females. The mechanisms causing this difference are unknown. The control of blood flow in the placenta and fetus is essential for normal growth and development. This project will investigate the influence of duration of pregnancy, gender, and exposure to antenatal steroids on pathways that control blood flow in the placenta and the newborn in babies born after prematurely.
Premature babies often need assistance to breathe but this can injure the lung and lead to abnormal lung development and long-term lung disease. We have recently identified 3 factors that we believe are fundamental to initiating this abnormal lung development. We will demonstrate that these 3 factors mediate abnormal lung development following lung injury at birth. This information can then be used to reduce the incidence and severity of chronic lung disease of the newborn.
A Prospective Study Of The Development Of Innate Immunity In Preterm Infants And Susceptibility To Neonatal Infection
Funder
National Health and Medical Research Council
Funding Amount
$377,773.00
Summary
Life-threatening infection is extremely common in preterm infants, affecting at least 25% of those born before 28 weeks. Infection results in huge human and economic costs. There is currently no way of predicting which preterm infants will develop infection. This project will enrol preterm infants at birth and track the development of their protective immune system over the period of greatest vulnerability. This will lead to development of targeted treatement for those at greatest risk.
Child Health At Two Years Corrected Age After Antenatal Exposure To Dexamethasone Or Betamethasone; A Randomised Trial
Funder
National Health and Medical Research Council
Funding Amount
$1,777,593.00
Summary
Both dexamethasone or betamethasone, given to women at risk of preterm birth substantially improve neonatal and child health. There are conflicting reports as to whether dexamethasone is better than betamethasone? This randomised trial will assess this. If dexamethasone is more beneficial, there will be fewer deaths and fewer disabled children. This will be of great importance for the care of women at risk of preterm birth, their children and health services in Australia and internationally.
Respiratory failure at birth is a major cause of death and disease in newborn infants. At birth the airways must be cleared of liquid to allow the inhalation of air, but, little is known about the process of lung aeration, because it has not been possible to observe or measure it. We have developed imaging and analytical techniques to observed and measure lung aeration. We will determine ventilation procedures that promote uniform lung aeration and minimise lung injury in ventilated infants.
Nasal CPAP For Very Preterm Infants At Birth: Does It Improve Outcome? A Randomised Controlled Trial
Funder
National Health and Medical Research Council
Funding Amount
$460,604.00
Summary
Neonatal respiratory distress syndrome (RDS) is the major cause of morbidity and mortality in preterm infants. Many of these infants need ventilatory support to keep them alive. In 1996 and 1997, 10,471 infants in Australia and New Zealand needed ventilatory support for a total of 72,544 days. This treatment is a great physical burden for the infants and an enormous emotional stress for their parents. Each day of treatment costs about A$2000 so their hospital treatment costs about $72 million a ....Neonatal respiratory distress syndrome (RDS) is the major cause of morbidity and mortality in preterm infants. Many of these infants need ventilatory support to keep them alive. In 1996 and 1997, 10,471 infants in Australia and New Zealand needed ventilatory support for a total of 72,544 days. This treatment is a great physical burden for the infants and an enormous emotional stress for their parents. Each day of treatment costs about A$2000 so their hospital treatment costs about $72 million a year. Of infants born less than 29 weeks' gestational age, about 40% of the survivors subsequently developed chronic lung disease (CLD). This condition is defined as prolonged dependence on supplementary oxygen therapy. CLD is associated with further costs and increased lung problems and readmissions to hospital in the first year of life. Thus, CLD is an expensive and time-consuming condition that has a high social cost. This project will determine whether treating these very premature babies from birth simply by applying oxygen under a low continuous positive pressure (CPAP) into their nose rather than the present treatment of placing a tube in the windpipe (known as intubation) and ventilation will reduce the incidence and severity of neonatal respiratory distress syndrome and subsequent chronic lung disease. The project will involve 600 babies from different, high quality neonatal intensive care units. Babies who are born at less than 29 weeks' gestation and who show signs of breathing at birth will be randomly allocated to be treated with either nasal CPAP or intubation and ventilation. This project will determine whether CPAP treatment at birth improves survival and reduces the severity of the RDS and subsequent CLD, or has no long term beneficial effect. If the trial is successful, this will be one of the most useful new treatments in neonatal medicine because it is simple to use, easier for the babies, and cheaper than ventilation.Read moreRead less