Contribution Of Systemic Inflammatory Response To Brain Injury In Growth Restricted Newborns
Funder
National Health and Medical Research Council
Funding Amount
$363,388.00
Summary
Growth restriction during pregnancy can damage the baby’s brain and result in poor outcomes such as learning and attention difficulties and cerebral palsy. Currently there is no treatment available to prevent brain injury in these babies. This study will explore the role of inflammation and brain injury in the growth restricted baby. We will also examine whether a readily available and safe anti-inflammatory treatment can reduce or prevent brain injury following growth restriction.
Reducing Morbidities In Preterm Growth Restricted Neonates.
Funder
National Health and Medical Research Council
Funding Amount
$687,214.00
Summary
Intrauterine growth restriction (IUGR) is a serious complication of pregnancy and occurs when fetal growth is abnormal, resulting in a fetus that is smaller than it should be for its given gestational age. IUGR babies are at much greater risk of many short and long-term adverse outcomes. This study investigates the role that adverse cardiovascular development plays in the progression of lung, heart and brain disease in preterm IUGR newborns.
Necrotising enterocolitis (NEC) is a devastating bowel condition afflicting almost 1 in 10 of very preterm babies. About a third of babies with NEC do not survive. Currently, there is no cure. We propose the use of stem-like cells from the human placenta as a targeted therapy for NEC, working by minimising gut damage and accelerating gut repair.
Being Born Small Is Not Good For The Heart:early Detection Of Cardiovascular Risk
Funder
National Health and Medical Research Council
Funding Amount
$486,757.00
Summary
Intra uterine growth restriction(IUGR) is linked to adult onset of cardiovascular disease. However, little is known about the mechanism(s) which underlie this link or which babies are most at risk. This study aims to assess cardiovascular function in infants and children who were growth restricted. Early identification of cardiovascular dysfunction may aid in new opportunities for monitoring and therapeutic targets to ultimately reduce later onset of cardiovascular morbidity in this population.
We have shown that premature birth leads to abnormalities in kidney structure and function. This project will determine in human infants, whether premature birth when combined with poor growth in the womb leads to an increase in these kidney abnormalities. Using animal studies we will examine specific factors which may adversely impact on kidney growth before and after premature birth. The findings are very relevant to the long-term kidney health of indigenous Australians.
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.
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
Family And Environment In The Development Of Obesity And Precursors Of Diabetes And Heart Disease In Adolescence
Funder
National Health and Medical Research Council
Funding Amount
$284,770.00
Summary
Obesity is a serious public health problem in Australia. The rate of obesity appears to be rising. Currently 19-23% of children and adolescents are overweight or obese. Adolescence is a critical period for the development of obesity in both males and females. It is a time when new dietary habits, likely to promote fatness, are adopted and physical activity declines. Understanding the factors that drive these behaviours is essential for effective prevention of obesity and related diseases. In 199 ....Obesity is a serious public health problem in Australia. The rate of obesity appears to be rising. Currently 19-23% of children and adolescents are overweight or obese. Adolescence is a critical period for the development of obesity in both males and females. It is a time when new dietary habits, likely to promote fatness, are adopted and physical activity declines. Understanding the factors that drive these behaviours is essential for effective prevention of obesity and related diseases. In 1996-7, our research group studied a group of over 400 children who were aged 7-8 years, were living in western Sydney and were born at Nepean Hospital. In our new study, we plan to re-study this group of children, now in early adolescence. This will allow us to assess the family and environmental factors influencing physical activity and eating behaviour at the beginning of adolescence. The aims of our study are to: Measure changes during early adolescence in eating and physical activity behaviours that are likely to increase obesity risk Measure anthropometric and biochemical markers for future risk of type 2 diabetes and cardiovascular disease in both adolescents and their parents Identify factors in the family environment that influence changes in food intake and physical activity in early adolescence The study will be done in two phases, 18 months apart. The measurements will be done in the study centre at Nepean Hospital in western Sydney. We will measure the height, weight and skinfold thickness of the adolescents and, if possible, their parents. We will also ask the young people and their parents to complete questionnaires about the family food and activity environment and their level of physical activity and food intake. In addition, the adolescents will wear a light-weight activity monitor for 3 days ( to measure the level of activity), blood pressure will be measured and cholesterol and blood sugar levels checked.Read moreRead less