Generating And Applying Clinical Research To Improve The Outcomes Of Neonatal Intensive Care
Funder
National Health and Medical Research Council
Funding Amount
$568,892.00
Summary
Birth is a complex process and sometimes babies require help to make the transition to independent life. Professor Peter Davis is conducting research into how best to support this transition. This involves helping the lungs to work efficiently and supporting the changes in circulation of the blood to the brain and to the rest of the body. His work aims to quickly identify babies who need help and then provide better treatments to make sure they have the best chance of a healthy life.
Optimising Early Respiratory Support For Preterm Infants: The HIPSTER Trial
Funder
National Health and Medical Research Council
Funding Amount
$696,791.00
Summary
Premature babies who need breathing support are often given ‘nasal continuous positive airway pressure’ (NCPAP) via large nasal prongs. It works well but is uncomfortable. A newer, popular support is ‘high flow’ (HF) which uses smaller nose prongs and may be more comfortable, but HF has not been well studied. The HIPSTER trial will compare these systems in 750 premature babies, at random half will have NCPAP, half will have HF. We will assess whether babies do equally well with each system.
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.
Defining Regional Lung Mechanics To Improve Lung Protective Ventilation Strategies In Newborn Infants
Funder
National Health and Medical Research Council
Funding Amount
$287,321.00
Summary
Over 3000 newly born infants require mechanical ventilation in Australia every year. The majority are very premature infants. About 30% of ventilated infants develop serious ventilator induced lung injury. Minimising such lung injury with improved techniques of ventilation which can protect the lung from injury will reduce the considerable short and long term health burden of this population.
International Neonatal Immunotherapy Study (INIS): A Randomised Trial Of Intravenous Immunoglobulin For Neonatal Sepsis
Funder
National Health and Medical Research Council
Funding Amount
$1,151,250.00
Summary
There is promising evidence that treatment of serious infection in babies with a product naturally occuring in blood, intravenous immunoglobulin (IVIG), may reduce deaths by 40% and reduce brain damage in survivors. This would reduce the social, emotional and financial burden of disability on families, health services and society. In financial terms alone, caring for a severely disabled child costs an extra $50,000 per year. However, more evidence is needed before IVIG can be introduced as routi ....There is promising evidence that treatment of serious infection in babies with a product naturally occuring in blood, intravenous immunoglobulin (IVIG), may reduce deaths by 40% and reduce brain damage in survivors. This would reduce the social, emotional and financial burden of disability on families, health services and society. In financial terms alone, caring for a severely disabled child costs an extra $50,000 per year. However, more evidence is needed before IVIG can be introduced as routine treatment for serious infection in the newborn. The International Neonatal Immunotherapy Study (INIS) is a randomised trial to study the potential benefits of IVIG in 5,000 newborn babies in 150 centres world wide. 26 centres are in Australia and New Zealand, whose expected contribution of 1,500 babies will be vital to the success of the study. INIS is supported by the Commonwealth Government and Australian Red Cross Blood Service, who will oversee the supply and distribution of IVIG, and the NHMRC Clinical Trials Centre, who will coordinate the study. Infants will have a detailed specialist assessment at 2 years of age and a parent questionnaire will be completed, to assess their development. An economic evaluation will be performed to estimate the long-term savings to Australian Health Services and families associated with the IVIG therapy. The IVIG product to be used in Australia is Intragam P, manufactured by CSL, who have an unrivalled safety record. CSL has been making IVIG since 1989 and no transmission of HIV or hepatitis viruses has ever been reported. CSL estimate the risk of transmission of these viruses by IVIG is under 1 in 10 million treatments. INIS will provide reliable evidence about IVIG, a treatment with minimum known risk that may benefit thousands of Australian children and millions more worldwide.Read moreRead less
A Study Of The Impact Of Treating Electrographic Seizures In Term Or Near-term Infants With Neonatal Encephalopathy
Funder
National Health and Medical Research Council
Funding Amount
$1,365,184.00
Summary
Seizures in the newborn infant are common and may be harmful to the developing brain. They are not always recognised. This study investigates whether or not treating all seizures detected using a bedside brain activity monitor improves developmental outcome, compared to just treating seizures that doctors recognise.
Right From The Start: Improving Respiratory Support For Preterm Infants From Their First Breath To Independent Breathing
Funder
National Health and Medical Research Council
Funding Amount
$266,623.00
Summary
My research program with the world leading research team at the Royal Women’s Hospital, Melbourne aims to improve the journey of preterm babies from birth, through the neonatal nursery, to a healthy start at home. Too many preterm babies die or have long term health problems. I will study gentler methods to support breathing from birth, investigate better ways of supporting them until they can breathe independently, and assess how to support more babies to stay in their birth hospitals.
Is There Cytomegalovirus In Mothers Breastmilk And Does It Cause Infection In Very Premature Babies?
Funder
National Health and Medical Research Council
Funding Amount
$235,970.00
Summary
The hypothesis behind this study is that some very premature infants become infected with cytomegalovirus (CMV) from their mother's breast milk. This proposal is for a study of 200 CMV antibody positive mothers who are expressing breast milk for their very premature infants. We believe this is likely to be about 50% of all mothers. It has been well established that some full term infants are infected with CMV from their mother's breastmilk. The question now is do very premature infants with poor ....The hypothesis behind this study is that some very premature infants become infected with cytomegalovirus (CMV) from their mother's breast milk. This proposal is for a study of 200 CMV antibody positive mothers who are expressing breast milk for their very premature infants. We believe this is likely to be about 50% of all mothers. It has been well established that some full term infants are infected with CMV from their mother's breastmilk. The question now is do very premature infants with poor immunity develop serious infections from cytomegalovirus. This project has the overall aim of determining what proportion of very premature infants become ill with CMV excreted in their mother's breast milk, and then determining the nature and severity of those illnesses. It will also define how many mothers of premature infants are excreting CMV in their breast milk, the time this starts after birth, the viral load transmitted to the infant, the age after birth when the infants first become infected, the proportion who become ill with the infection, the details of the diseases and whether freezing breast milk kills the CMV.Read moreRead less
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.
I am a neonatologist interested in improving the outcomes of graduates of neonatal intensive care units. Currently the focus of my research is stabilisation immediately following birth and my research portfolio ranges from bench-top and animal studies thr