Potential For Creatine Or Melatonin As Dietary Supplements In Pregnancy To Prevent Perinatal Brain Damage
Funder
National Health and Medical Research Council
Funding Amount
$483,217.00
Summary
Brain damage in the newborn - particularly in prematurely born infants - remains a significant health problem. At present there are very few treatments that can be used to minimize damage when it becomes apparent in the newborn, and none that can be used PROSPECTIVELYduring pregnancy to protect the developing brain from damage. The most likely cause of damage to the fetal brain during pregnancy or at birth is global ASPHYXIA, either by itself or in association with other problems of pregnancy su ....Brain damage in the newborn - particularly in prematurely born infants - remains a significant health problem. At present there are very few treatments that can be used to minimize damage when it becomes apparent in the newborn, and none that can be used PROSPECTIVELYduring pregnancy to protect the developing brain from damage. The most likely cause of damage to the fetal brain during pregnancy or at birth is global ASPHYXIA, either by itself or in association with other problems of pregnancy such as infection, preterm birth, or fetal growth retardation. In this project we propose that providing extra amounts of the dietary constituent creatine, or of the hormone melatonin, to the pregnant animal in late gestation, will provide NEUROPROTECTION to the developing brain in the face of an asphyxial challenge that otherwise causes damage. We will use pregnant sheep to investigate the effects of asphyxia in utero on the fetal brain using techniques that allow us to monitor metabolic changes within the brain in real time. In addition, we will use the pregnant Spiny Mouse to investigate the effects of birth asphyxia on the postnatal brain structure and behavioral development. We will study groups of animals fed a normal diet, and compare then to animals that receive additional amounts of creatine or melatonin. We expect to determine if either of these treatments have the potential to protect the developing brain from asphyxial damage, and to recommend if similar treatments could be used in pregnant women where the obstetrician suspects the baby's brain is at risk of damage.Read moreRead less
Perinatal Stress Leads To Neurosteroid Deficits And Adverse Behavioural Outcomes
Funder
National Health and Medical Research Council
Funding Amount
$1,198,042.00
Summary
This grant will examine the effect of psychosocial stress experienced after birth on the production and regulation of steroid hormones in the brain of newborn animals. The work will investigate how stress changes the levels these brain steroids and sensitivity to them and if these effects are remain into adulthood. The studies will then determine if these changes lead to adolescent behaviour disorders. The effectiveness of steroid therapies in treating these disorders will also be determined.
Identifying Strategies To Improve Perinatal Outcomes After Assisted Conception
Funder
National Health and Medical Research Council
Funding Amount
$724,799.00
Summary
Around 20% of young women express concern with being able to conceive, 16% experience clinical infertility, and ~8% use invasive therapies for which there can be limited safety data. We, and others, have reported adverse events for mother and child after infertility treatment, including neonatal death and birth defects. This project will provide urgently needed, robust evidence to guide patient and clinical decision making so as to optimise health of mother and baby.
Contribution Of Disturbed Blood Flow And Cerebral Metabolism To White Matter Damage In The Perinatal Brain
Funder
National Health and Medical Research Council
Funding Amount
$369,375.00
Summary
It has been known for some time that the white matter regions of the developing brain are particularly vulnerable to damage. These regions are deep in the brain near the ventricles, and are rich in myelin sheaths wrapped around the nerve fibres running from cell-rich areas in the outer layers of the brain to other regions, and down into the spinal cord. Damage to white matter usually leads to behavioural, learning and motor problems in the newborn infant - in its severest form, seen as cerebral ....It has been known for some time that the white matter regions of the developing brain are particularly vulnerable to damage. These regions are deep in the brain near the ventricles, and are rich in myelin sheaths wrapped around the nerve fibres running from cell-rich areas in the outer layers of the brain to other regions, and down into the spinal cord. Damage to white matter usually leads to behavioural, learning and motor problems in the newborn infant - in its severest form, seen as cerebral palsy. Such outcomes are often associated with the presence of asphyxia and infection during pregnancy, leading to the belief that the damage first arises while the baby is still in utero. In this application we suggest that asphyxia and-or infection during pregnancy cause prolonged disturbances in the regulation of blood flow and integrity of the blood-brain barrier in the developing brain, together with changes in metabolism that result in accumulation of prostaglandins and the toxic hydroxyl radical, leading irreversibly to cell death. If this series of events proves to be true, we have suggested and will test several protocols for protecting the fetal brain, which should be readily translatable to clinical practice.Read moreRead less
Cerebral Palsy (CP) is a devastating, common developmental brain disorder once assumed to be due to lack of oxygen at birth. Using our unique Biobank with DNA and clinical data from families with a CP child, we are examining the genetic origins of CP and how genes and risk factors in pregnancy contribute. We will use computer modelling and testing in animals and brain cells, to understand causes of CP and devise predictive, preventative and therapeutic strategies.
Novel Therapy For Enhancing Organ Maturation In Pre-term Babies
Funder
National Health and Medical Research Council
Funding Amount
$694,323.00
Summary
This project is developing a factor to enhance organ maturation and repair that may provide a new therapy for premature babies and fetuses with birth defects. This exciting new finding allows for the development of treatments of underdeveloped organs, in particular the lungs of premature and growth restricted babies. We are also trialing this factor in unborn babies with defects to the kidneys and lungs of which there is currently no cure.
Neurosteroid Mediated Protection After Birth: Approaches For Maximising Protective Steroid Levels In The Neonatal Brain
Funder
National Health and Medical Research Council
Funding Amount
$450,703.00
Summary
Complications during pregnancy, birth asphyxia or premature birth can lead to neurological impairment in the newborn. Despite excellent neonatal care many of these babies go on to have serious handicaps. Neurosteroids are a group of steroids that regulate brain activity. These steroids protect brain cells from damage caused by an inadequate supply of oxygen by suppressing toxicity caused by excessive activity. We have shown that the levels of these protective steroids are remarkably high in the ....Complications during pregnancy, birth asphyxia or premature birth can lead to neurological impairment in the newborn. Despite excellent neonatal care many of these babies go on to have serious handicaps. Neurosteroids are a group of steroids that regulate brain activity. These steroids protect brain cells from damage caused by an inadequate supply of oxygen by suppressing toxicity caused by excessive activity. We have shown that the levels of these protective steroids are remarkably high in the fetal brain and levels rise further in response to fetal stress. The placenta contributes steroid precursors that help maintain these high neurosteroid levels. This placenta-fetal brain interaction comprises an internal mechanism that protects the fetal brain from adverse events during pregnancy. At birth, however, there is a dramatic decline in neurosteroid concentrations in the brain after the loss of the placental precursor supply. The fall in concentrations is even greater in animals that are born growth restricted. This suggests that newborns, particularly those from compromised pregnancies, are at increased risk of brain damage due to low neurosteroid levels. We believe that certain commonly used steroid therapies may also lower steroid levels in the brain and result in increased vulnerability to brain damage during birth or in the early neonatal period. Alternatively, we propose that replacement of neurosteroid precursors in the newborn may raise brain neurosteroid levels and protect against brain damage. In the proposed studies we will evaluate treatments that can raise the concentration of steroids and determine the best strategy for reducing brain injury following complications during pregnancy, at birth and during the early newborn period. This work will determine the best therapeutic approaches for maximising neurosteroid-induced brain protection and for reducing the risk of brain damage.Read moreRead less
Cell Therapy For Prevention Of Perinatal Inflammation
Funder
National Health and Medical Research Council
Funding Amount
$539,337.00
Summary
Exposure of babies to infection or inflammation before birth is common and is associated with preterm delivery and illness in newborns. The biggest problem for these babies is lung disease due to inflammation of the lungs before birth and/or in response to lung injury after birth. There is no treatment for the underlying inflammation and no way to prevent or treat the lung disease that it causes. This project will investigate a new stem-cell based treatment for lung inflammation that may prevent ....Exposure of babies to infection or inflammation before birth is common and is associated with preterm delivery and illness in newborns. The biggest problem for these babies is lung disease due to inflammation of the lungs before birth and/or in response to lung injury after birth. There is no treatment for the underlying inflammation and no way to prevent or treat the lung disease that it causes. This project will investigate a new stem-cell based treatment for lung inflammation that may prevent life-threatening lung disease in preterm babies.Read moreRead less
The exposure of infants to adverse events both before and after birth can cause death or permanent disability (eg cerebral palsy) for the infant. Our primary research objective is to minimize the impact and improve outcomes for infants exposed to adverse events before and/or after birth. We will use a multi-disciplinary approach that aims to understand the science and to develop new treatments, thereby representing true “bench to bedside” research.
The Role Of Proteoglycans In Contributing To Placental Thrombosis And Fetal Growth Restriction
Funder
National Health and Medical Research Council
Funding Amount
$368,269.00
Summary
Fetal growth restriction (FGR) is a pregnancy complication in which the baby doesn�t grow properly in the womb. Growth restricted babies are much more likely to be stillborn. These babies are also at risk of problems later in life such as obesity, diabetes and heart disease. This study investigates molecules in the placenta that may be responsible for causing FGR. If we can understand how these molecules cause the problem of FGR, we may be able to find better ways of treating or preventing it.