Newborn babies are at risk of becoming short of oxygen during delivery and sustaining brain damage. Seizures may cause further damage to the brain because they release damaging chemicals or make extra energy demands on the brain that cannot be met. To detect seizures, it is necessary to measure the EEG, the tiny electrical signals from the brain. We are proposing to automatically detect and count seizures, building upon 8 years of fundamental EEG signal processing research work we have undertake ....Newborn babies are at risk of becoming short of oxygen during delivery and sustaining brain damage. Seizures may cause further damage to the brain because they release damaging chemicals or make extra energy demands on the brain that cannot be met. To detect seizures, it is necessary to measure the EEG, the tiny electrical signals from the brain. We are proposing to automatically detect and count seizures, building upon 8 years of fundamental EEG signal processing research work we have undertaken. We anticipate that the product will be of major commercial interest. We will further explore what is a rapidly expanding marketplace and ensure we maximize the commercial return on this product.Read moreRead less
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
The Fetal Response To Infection, With Particular Reference To Alterations Of Tryptophan Metabolism
Funder
National Health and Medical Research Council
Funding Amount
$410,616.00
Summary
Infection in pregnancy has long been known to be associated with a high risk for brain damage in the baby. There is now good evidence that the brain can be damaged before birth, and in other babies where the brain is damaged after birth there is reason to say that these infants were factors associated with the pregnancy that rendered them vulnerable to risk factors postnatally. Very little is known about the effects of infection on the fetus. Some recent work has shown that substances released f ....Infection in pregnancy has long been known to be associated with a high risk for brain damage in the baby. There is now good evidence that the brain can be damaged before birth, and in other babies where the brain is damaged after birth there is reason to say that these infants were factors associated with the pregnancy that rendered them vulnerable to risk factors postnatally. Very little is known about the effects of infection on the fetus. Some recent work has shown that substances released from bacteria induce cells in the uterus and placenta to produce inflammatory chemicals that can damage the brain. In this project we propose the following model: 1), infection causes the release of substances from the uterus and placenta that disrupt the blood-brain barrier in the fetal brain; and, 2), infection alters the metabolism of the essential amino acid tryptophan in the fetus, causing greater production of metabolites that have toxic effects on the developing brain. We have preliminary evidence to support these two proposals. If the idea is proven correct, it should be possible to administer simple analogues of tryptophan to prevent the toxic metabolites of this amino acid from increasing in the fetus when either the mother or the uterus becomes infected. Because these substances can be given by mouth, this would allow a simple treatment to be developed for women at risk of infection, or who are already infected. This would be particularly useful wherever medical services and resources are limited, as for under-priviledged groups and in Third World countries.Read moreRead less
Translation Of Effective Interventions In Injury Prevention And Trauma Care To A Chinese Setting
Funder
National Health and Medical Research Council
Funding Amount
$349,407.00
Summary
Evidence informed injury policy is not currently well developed in China. This research project will provide measures of the effectiveness of both a trauma care protocol in a hospital setting, and an intervention program for novice driver education-training in China, and will therefore contribute to the building of an evidence based injury prevention capacity in China.