We are an international team committed to clinical trials to improve survival without disability in newborn babies. We plan a randomised trial to confirm if bovine lactoferrin, an inexpensive dairy protein, reduces death or major morbidity and increases total breast milk intake in 1,500 very low birthweight babies in neonatal intensive care units
Best Fed: Implementing Evidence Based Clinical Practice Guidelines To Improve Breast Milk Use And The Feeding Management Of Infants Born
Funder
National Health and Medical Research Council
Funding Amount
$177,197.00
Summary
Breast milk is the best food for babies born prematurely. There are challenges for women in providing breast milk and challenges for clinicians in managing the feeds of preterm babies, including when to start feeds and how quickly to progress. Sometimes research evidence doesn’t translate into practice and in this project I will support clinicians to implement the best evidence so that more preterm babies are receiving breast milk on discharge home.
A Randomised Controlled Trial Of Enhanced Parenting Capacity To Improve Developmental Outcomes In Preterm Infants
Funder
National Health and Medical Research Council
Funding Amount
$1,045,141.00
Summary
In Australia there are 2, 600 very preterm survivors each year. 50% will have education/behavioural difficulties and 10% major disability. We aim to optimise the development of infants born very preterm through a tailored Positive Parenting Program. We predict reductions in child behavioural and emotional problems at 2 years corrected age.
Good nutrition is a vital element in a healthy start to life. Determining the correct foods to ensure that pregnant women meet both their needs as well as those of their new baby can be very confusing. Do I need to take iron supplements? How can I ensure I get enough iodine? This project will develop new methods for evaluating the effects of nutrients and to pass that information on to health practitioners so that Australian mothers will be in no doubt about the best diet for them and their chil ....Good nutrition is a vital element in a healthy start to life. Determining the correct foods to ensure that pregnant women meet both their needs as well as those of their new baby can be very confusing. Do I need to take iron supplements? How can I ensure I get enough iodine? This project will develop new methods for evaluating the effects of nutrients and to pass that information on to health practitioners so that Australian mothers will be in no doubt about the best diet for them and their children.Read moreRead less
Docosahexaenoic Acid For The Reduction Of Bronchopulomonary Dysplasia In Preterm Infants Born At Less Than 29 Weeks Gestational Age: A Randomised Controlled Trial
Funder
National Health and Medical Research Council
Funding Amount
$1,929,854.00
Summary
A major challenge in the care of very preterm babies, is dealing with the fact that the baby has very immature lungs. They are prone to an inflammatory condition known as BPD (broncho-pulmonary dysplasia) that prevents an infant from breathing, much like asthma in older children. This can result in poor health outcomes for life. Our study will test the effect of the omega 3 fat known as DHA in reducing this inflammation in the lung and result in better outcomes for the baby.
Previous research has shown that SIDS victims have a number of subtle abnormalities that set them apart from the normal population. These include the occurrence of upper airway obstruction in sleep, a reduced ability to awaken from sleep and abnormalities of the automatic control of heart rate and blood pressure in sleep. These body functions are controlled by a component of the brain called the autonomic nervous system which controls the heart and other internal functions by means of nerves cal ....Previous research has shown that SIDS victims have a number of subtle abnormalities that set them apart from the normal population. These include the occurrence of upper airway obstruction in sleep, a reduced ability to awaken from sleep and abnormalities of the automatic control of heart rate and blood pressure in sleep. These body functions are controlled by a component of the brain called the autonomic nervous system which controls the heart and other internal functions by means of nerves called the parasymmpathetic and sympathetic systems. The purpose of this project is to undertake studies of the autonomic system in normal infants and in those infants who are considered to be at risk for SIDS. As SIDS occurs almost exclusively in sleep it is important to study the infant?s heart rate and blood pressure responses to various challenges whilst asleep. All infants (both controls and subjects) enrolled in the protocol will therefore undergo overnight sleep studies during which their automatic responses to a variety of stimuli will be measured. Once we have established the normal response to these stimuli we can then compare them to the results of the at risk group. If, as we anticipate, there is a difference between our at risk group and the normal controls in automatic function then we will measure some of the stress hormones in the body which reflect the function of the autonomic nervous system. If there is a difference in the levels of these hormones between the normal and the at risk groups which correlates with the expected subtle abnormalities in function we may be able to devise an accessible and quantifiable measure for those infants at risk of SIDSRead moreRead less
DHA For The Improvement Of Neurodevelopmental Outcome In Preterm Infants: The DINO Trial
Funder
National Health and Medical Research Council
Funding Amount
$631,875.00
Summary
The incidence of neurological problems that occur in children born prematurely is higher than for those born at term. The earlier that a baby is born, the greater chance it has of having some developmental delay and general inability to cope at school. This has implications for the child, the families and the health system. One of the many dietary factors implicated in the development of neural abilities in premature infants is an omega-3 fatty acid called DHA. This compound is present in breast ....The incidence of neurological problems that occur in children born prematurely is higher than for those born at term. The earlier that a baby is born, the greater chance it has of having some developmental delay and general inability to cope at school. This has implications for the child, the families and the health system. One of the many dietary factors implicated in the development of neural abilities in premature infants is an omega-3 fatty acid called DHA. This compound is present in breast milk and most preterm formulas and is found in high concentrations in the brain and retina. In the last third of pregnancy the developing baby would normally accumulate DHA at a rapid rate. So it seems reasonable to assume that a baby outside the mother, that is born premature, would also need to accumulate DHA at this same rate. The problem is that none of the milks currently given to premature infants have DHA in high enough concentration to supply this amount of DHA to the baby. For example, breast milk and preterm formulas contain only a third of the DHA required. In order to provide this amount for the premature infant, breast milk containing DHA at about 1% of the total fat is required. Fortunately the level of DHA in breast milk can be increased to this level by supplementing the mothers diet with fish or olis like tuna oil. This study hopes to show that premature babies who receive DHA in amounts similar to that supplied in the womb will develop better than babies who receive low amounts of DHA.Read moreRead less