We aim to predict neurodevelopmental disability in babies born very preterm, earlier and more accurately than currently possible, by identifying structural and functional connectivity features that correlate with clinical measures of motor and neurodevelopmental functions. To do this we will use brain magnetic resonance imaging (MRI), dense array electroencephalography (EEG) and structured clinical neurodevelopmental assessments to provide a cutting edge view of the state of brain development.
The Role Of Sirtuin (SIRT) Proteins In The Mechanisms That Regulate Infection Induced Preterm Birth
Funder
National Health and Medical Research Council
Funding Amount
$516,430.00
Summary
Being born too early is the major cause of perinatal morbidity and mortality and accounts for the majority of neonatal deaths. The aim of this project is to gain a better understanding of the mechanisms involved in premature birth with a view to future development of clinically useful interventions to reduce the high rates of mortality and long-term disability.
Understanding The Myometrial Transition At Term And Preterm Labour To Guide Tocolysis
Funder
National Health and Medical Research Council
Funding Amount
$808,447.00
Summary
This grant seeks to understand how the muscle cells of the uterus transform at the time of labour. We propose that this transformation is organised by enzymes that modify the histones around key genes. We will test if a similar pathway operates in cases of preterm labour. The results will guide the development of new ways of treating premature labour that will use targeted nanoparticles to deliver siRNA directly to the muscle cells of the uterus.
Motor problems, ranging from clumsiness to cerebral palsy, are one of the most common adverse outcomes in children born early. This study will investigate the motor development of children born <30 weeks’ gestation compared with peers born at term from birth to 5 years. We will determine whether early clinical evaluations or neuroimaging in the newborn period can predict later motor impairment at 5 years to be able to identify those who will benefit most from early intervention.
Optimising Non-invasive Ventilation At Birth For Preterm Infants
Funder
National Health and Medical Research Council
Funding Amount
$735,912.00
Summary
Infants born very premature require respiratory support at birth to make the transition to newborn life. As these infants are very immature and prone to injury, modern respiratory care strategies utilise the least invasive approaches mainly applied using a facemask. However, we have discovered that the larynx is closed at birth and thereby prevents air from entering the lung. This application is focussed on optimising the efficiency of facemask ventilation at birth and stimulating breathing.
Defining Epigenetic Predictors Of Long-term Outcomes Of Preterm Birth
Funder
National Health and Medical Research Council
Funding Amount
$409,408.00
Summary
On average, those born premature do worse health-wise than those born at term. However, some do worse than others. Our aim is to identify these people at birth to better help doctors and parents to closely monitor their health. For this, we will be “reading the diary of pregnancy” in the molecules added to chromosomes in blood during pregnancy in young adults with will characterised states of health. We will analyse DNA from blood that we will extract from stored heel prick spots.
A Community-based Cluster Randomized Controlled Trial In Rural Bangladesh To Evaluate The Impact Of The Use Of Iron/folic Acid Supplements Early In Pregnancy On The Risk Of Neonatal MortalityBACKGROUND An Effective Program Of Antenatal Iron/folic Ac
Funder
National Health and Medical Research Council
Funding Amount
$2,564,922.00
Summary
This community-based trial in rural Bangladesh will determine if iron/folic acid supplementation commencing in the first trimester of pregnancy significantly reduces newborn deaths, and whether this approach is cost-effective. This trial has the potential to inform international public health policy about the importance of starting antenatal iron/folic acid supplementation early to improve neonatal survival, and to help countries reach their child survival Millennium Development Goal