In What Position Should We Be Sleeping Preterm Infants In The NICU?
Funder
National Health and Medical Research Council
Funding Amount
$409,742.00
Summary
Preterm babies are at risk of brain injury caused by low cerebral blood flow and oxygenation. The prone sleeping position (lying on abdomen) has been found to decrease both cerebral oxygenation and blood pressure in healthy term babies, and is a major risk factor for Sudden Infant Death Syndrome. However, it is common practice for preterm babies to be slept in the prone position.This study will examine the effects of prone vs supine positions on brain oxygenation in the preterm babies.
Neuro-protection In The Preterm Brain - A New Role For Dopamine Therapy?
Funder
National Health and Medical Research Council
Funding Amount
$183,975.00
Summary
Brain injury in premature babies leads to long term adverse outcome. Preliminary data show that dopamine improves brain oxygen. Our study will define effects of dopamine in preventing injury in the immature brain, using animal studies. In immature lambs receiving dopamine, we will test the protective effect of dopamine on brain oxygenation during hypoxia. Outcome will be measured by examining cell injury on lamb brain slices.
A Pre-clinical Trial Of Early Blood Transfusion For Improving Cerebral Oxygen Delivery In Very Preterm Neonates
Funder
National Health and Medical Research Council
Funding Amount
$970,603.00
Summary
Long-term disability is common in babies born prematurely. This may be due to insufficient delivery of oxygen to the brain, but currently there is no treatment that increases oxygen delivery to the brain. We will determine if blood transfusion is more effective than current treatments given to prevent brain injury in preterm babies. Transfusion has two benefits. It will increase the amount of blood going to the brain. It will also increase the amount of oxygen carried by the blood.
Novel Approaches To Assessing Cerebral Circulation And Oxygenation In Preterm Human Infants.
Funder
National Health and Medical Research Council
Funding Amount
$489,145.00
Summary
In the first few days after birth, some premature babies develop low blood pressure. It is thought that this meant that the amount of blood and oxygen going to the brain would also fall. If blood pressure became very low, this could injure the brain. Drugs are used to prevent low blood pressure, but their effect on blood flow and oxygen in the brain is uncertain. This study aims to develop simple cotside monitoring procedures that allow neonatologists to monitor oxygen supply and blood flow in t ....In the first few days after birth, some premature babies develop low blood pressure. It is thought that this meant that the amount of blood and oxygen going to the brain would also fall. If blood pressure became very low, this could injure the brain. Drugs are used to prevent low blood pressure, but their effect on blood flow and oxygen in the brain is uncertain. This study aims to develop simple cotside monitoring procedures that allow neonatologists to monitor oxygen supply and blood flow in the brain in tiny babies who weigh less than 1000gm, and what happens within the brain when drugs are given to raise blood pressure. We will employ a new instrument that generates low intensity near infrared light which passes safely into the brain and is absorbed according to the amount of oxygen present in very small blood vessels. As the methodology is new, we intend to first validate the measurement in immature lambs. The instrument will then be applied in studies of babies undergoing intensive care and at risk for low pressure and brain injury, as many as 5000 babies each year in Australia.Read moreRead less