The Lililwan Project: Prevalence Of Fetal Alcohol Spectrum Disorders In The Fitzroy Valley
Funder
National Health and Medical Research Council
Funding Amount
$777,758.00
Summary
Alcohol use in pregnancy is widespread in Australia. Alchohol may cause physical and developmental problems in the developing child including the Fetal Alcohol Spectrum Disorders (FASD). This collaborative project, initiated and led by Aboriginal leaders in the Fitzroy Valley in the remote East Kimberley, WA, will establish the prevalence of FASD, health and developmental problems in a population of primary school-aged, predominantly Aboriginal children and develop strategies for service deliver ....Alcohol use in pregnancy is widespread in Australia. Alchohol may cause physical and developmental problems in the developing child including the Fetal Alcohol Spectrum Disorders (FASD). This collaborative project, initiated and led by Aboriginal leaders in the Fitzroy Valley in the remote East Kimberley, WA, will establish the prevalence of FASD, health and developmental problems in a population of primary school-aged, predominantly Aboriginal children and develop strategies for service delivery, prevention and education.Read moreRead less
Professor Elizabeth Elliott AM is an international leader in rare disease research, as Director of the Australian Paediatric Surveillance Unit and investigator on The Lililwan project in Fitzroy Valley's remote Aboriginal communities, WA. This will establish prevalence of Fetal Alcohol Spectrum Disorders (FASD); diagnose and manage affected children and support their carers; and provide data to inform service needs for FASD and prevention policy for alcohol use pregnancy.
Novel Cell Therapy For Hirschsprung Disease: From Patient IPS Cells To Large Animal Trials
Funder
National Health and Medical Research Council
Funding Amount
$1,011,764.00
Summary
In Hirschsprung disease the lower bowel has no nerve cells. It does not function so it is surgically removed but quality of life is poor. A new idea is to replace the missing cells with new ones. Human infants are very large so we will use new stem cell technologies to create large numbers of cells. We will use polymer chemistry to devise a method of getting the cells into such a large organ as the bowel, and trial these on a model, the piglet, which closely resembles in size the human baby.
Cancer is still a major cause of mortality in adults and children. Several lines of evidence suggest that some childhood cancers may arise due to factors, which interfere with the normal process of early development in embryonal tissues. The nature of the molecular factors which derail normal embryogenesis, their mechanism and timing, is vital information for efforts to generate novel pharmaceuticals. Moreover, factors which are necessary for tumour initiation, might be very good targets for a c ....Cancer is still a major cause of mortality in adults and children. Several lines of evidence suggest that some childhood cancers may arise due to factors, which interfere with the normal process of early development in embryonal tissues. The nature of the molecular factors which derail normal embryogenesis, their mechanism and timing, is vital information for efforts to generate novel pharmaceuticals. Moreover, factors which are necessary for tumour initiation, might be very good targets for a cancer prevention strategy. If entirely successful, our experiments will show that the MYCN oncoprotein is a key factor in the very earliest stages of neuroblastoma tumour formation, we will define the mechanism of the MYCN effect on the normal process of neural crest development, and, we will provide a basis for future cancer prevention strategies in children with this disease.Read moreRead less
Modern Chemical Exposures In Utero And In Infancy, And Their Impact Upon Early Neurodevelopmental Outcomes In The Barwon Infant Study, An Unselected Birth Cohort Study
Funder
National Health and Medical Research Council
Funding Amount
$138,353.00
Summary
I am a paediatric doctor interested in the effects of modern industrial chemicals on children’s development. Even in the womb babies are exposed to industrial chemicals and we know some, like lead, are harmful to developing brains. I am interested in other chemicals that are now suspected to affect development, including the polybrominated diphenyl esters (PBDEs), and I intend to investigate this as part of the Barwon Infant Study, which follows 1250 children from before birth to 3 years.
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.
DETERMINING THE MECHANISMS LEADING TO LONG-TERM IMPAIRMENT IN VERY PRETERM CHILDREN: THE VIBeS LONGITUDINAL STUDY.
Funder
National Health and Medical Research Council
Funding Amount
$1,061,733.00
Summary
Approximately 50% of children born very preterm will develop significant problems. The objective of this project is to determine the mechanisms leading to these problems. We will do this by assessing at school-age a unique and valuable cohort of very preterm infants (VIBeS cohort) who had state-of-the-art brain scans shortly after birth and neurobehaviour assessments across early childhood. This school-age follow-up will involve repeat brain scans and detailed neuropsychological assessments.
Neurodevelopmental Outcomes After Novel Interventions In Newborn Infants
Funder
National Health and Medical Research Council
Funding Amount
$188,226.00
Summary
Children who were sick in the newborn period or born preterm are at increased risk of abnormal development, particularly problems with their ability to walk, think and learn. This research will assess how new treatments affect sick newborns’ later development. For example, giving preterm babies healthy germs, or probiotics, decreases a serious bowel infection, called necrotising enterocolitis or NEC. This research will find out if they also help preterm brain development when the children are 2 ....Children who were sick in the newborn period or born preterm are at increased risk of abnormal development, particularly problems with their ability to walk, think and learn. This research will assess how new treatments affect sick newborns’ later development. For example, giving preterm babies healthy germs, or probiotics, decreases a serious bowel infection, called necrotising enterocolitis or NEC. This research will find out if they also help preterm brain development when the children are 2 years old.Read moreRead less