Defining Regional Lung Mechanics To Improve Lung Protective Ventilation Strategies In Newborn Infants
Funder
National Health and Medical Research Council
Funding Amount
$287,321.00
Summary
Over 3000 newly born infants require mechanical ventilation in Australia every year. The majority are very premature infants. About 30% of ventilated infants develop serious ventilator induced lung injury. Minimising such lung injury with improved techniques of ventilation which can protect the lung from injury will reduce the considerable short and long term health burden of this population.
Improved Respiratory Support And Outcomes For Very Preterm Babies
Funder
National Health and Medical Research Council
Funding Amount
$9,185,907.00
Summary
Premature babies are born with lungs that are not developed enough to sustain their breathing needs after birth. As a result, they need intensive care which is the most costly and challenging problem in newborn medicine as these infants can suffer life-long diseases because of their early birth. This programs study will help to understand the causes of lung disease in premature babies and develop better ways of caring for them to improve their chances of survival without ongoing illness and disa ....Premature babies are born with lungs that are not developed enough to sustain their breathing needs after birth. As a result, they need intensive care which is the most costly and challenging problem in newborn medicine as these infants can suffer life-long diseases because of their early birth. This programs study will help to understand the causes of lung disease in premature babies and develop better ways of caring for them to improve their chances of survival without ongoing illness and disabilityRead moreRead less
I am a developmental lung physiologist who specialises in understanding the factors regulating normal and abnormal lung development as well as the physiological transformation of the lung into an efficient gas-exchange organ at birth.
RCT Of Headbox Oxygen Vs CPAP For Neonatal Respiratory Distress In Non-tertiary Hospitals
Funder
National Health and Medical Research Council
Funding Amount
$225,500.00
Summary
Each year in NSW hundreds of babies are transferred from local general hospital nurseries to a hospital with Neonatal Intensive Care Unit (NICU) because of breathing difficulties. Frequently, mothers are unable to accompany their babies at the time of transfer, leading to stress. When a mother is eventually transferred she is often separated from her partner and local supports causing further anxiety. In addition, if a baby has to be transferred, invasive procedures may be needed to ensure safet ....Each year in NSW hundreds of babies are transferred from local general hospital nurseries to a hospital with Neonatal Intensive Care Unit (NICU) because of breathing difficulties. Frequently, mothers are unable to accompany their babies at the time of transfer, leading to stress. When a mother is eventually transferred she is often separated from her partner and local supports causing further anxiety. In addition, if a baby has to be transferred, invasive procedures may be needed to ensure safety. Currently, babies who need oxygen in a local hospital are placed in a crib with a clear plastic box around their head and oxygen is run into the box (headbox oxygen). There is an alternative method of providing oxygen called CPAP (Continuous Positive Airway Pressure). This involves giving the oxygen directly into the baby's nose via soft rubber prongs. CPAP has been used since the 1970's. It is the main form of respiratory support for infants in many NICUs in Australia and the world. There is some evidence that death and lung disease may be reduced. However, the babies in these studies are sicker and smaller than babies in local hospital nurseries. CPAP is used in some local nurseries in New Zealand, however no studies have been done to see if CPAP reduces the need for inter-hospital transfer. The study will involve hospitals that have been selected because of their level of on site medical and nursing staff. These hospitals will have support and advice from two NICUs that use CPAP as their main form of respiratory support. Babies who need oxygen will be randomly allocated to either have headbox oxygen or CPAP. If the baby becomes so unwell such that certain preset criteria are met, the baby will be transferred to a NICU in the usual way. If CPAP safely reduces the need for inter-hospital transfer, many parents will be saved the anxiety associated with transfer, and the separation it often causes.Read moreRead less
I am a developmental lung physiologist who specialises in understanding the factors regulating normal and abnormal lung development as well as the physiological transformation of the lung into an efficient gas-exchange organ at birth.
Mechanisms Of Apnea And Periodic Breathing In The Newborn.
Funder
National Health and Medical Research Council
Funding Amount
$381,100.00
Summary
Breathing pauses referred to as apnea or periodic breathing occur frequently in the preterm infant, and often require intensive clinical vigilance to ensure survival. And yet the mechanisms that produce and terminate apnea are not understood. This study will investigate the mechanisms underlying infantile apnea and periodic breathing and the effectiveness of drugs and techniques currently used to control apnea by using a combination of infant animal model studies, mathematical modelling studies ....Breathing pauses referred to as apnea or periodic breathing occur frequently in the preterm infant, and often require intensive clinical vigilance to ensure survival. And yet the mechanisms that produce and terminate apnea are not understood. This study will investigate the mechanisms underlying infantile apnea and periodic breathing and the effectiveness of drugs and techniques currently used to control apnea by using a combination of infant animal model studies, mathematical modelling studies and studies in human preterm infants to improve our understanding of breathing control in infancy.Read moreRead less
Randomised Controlled Trial Of Therapeutic Pulmonary Lavage In Meconium Aspiration Syndrome
Funder
National Health and Medical Research Council
Funding Amount
$182,550.00
Summary
Meconium aspiration syndrome (MAS) is a serious respiratory disease of full term infants, which can lead to very severe respiratory failure. It is caused by the inhalation of meconium, the secretion of the fetal intestine, into the lung at or prior to delivery. As a result, the airways and air sacs within the lung are damaged, leading to difficulty with breathing and poor oxygen levels. About one-third of all infants with MAS require mechanical ventilation in the first days of life, and are ofte ....Meconium aspiration syndrome (MAS) is a serious respiratory disease of full term infants, which can lead to very severe respiratory failure. It is caused by the inhalation of meconium, the secretion of the fetal intestine, into the lung at or prior to delivery. As a result, the airways and air sacs within the lung are damaged, leading to difficulty with breathing and poor oxygen levels. About one-third of all infants with MAS require mechanical ventilation in the first days of life, and are often extremely difficult to manage. At present, the main treatments given to a ventilated infant with severe MAS are supportive, rather than curative. Lung cleansing procedures are not part of routine care in this condition, even though removal of meconium from the lung may reduce the amount of damage that occurs. This project is a randomised controlled trial of a lung cleansing procedure called lung lavage in ventilated infants with severe MAS. During the lung lavage, a quantity of cleansing fluid containing a natural substance called surfactant is introduced into the lung, and then removed by suctioning. This procedure cleanses the lung of some of the meconium, and in preliminary testing, appears to be safe and well-tolerated even in the sickest infants. In the proposed trial, we will randomly allocate ventilated infants with severe MAS to receive either a lung lavage procedure, or routine care. This will take place within 24 hours of birth. We are looking to see whether the lavage procedure shortens the duration of ventilation, oxygen therapy or hospitalisation. Because there are only a small number of ventilated infants with MAS at any one centre per year, we will involve as many Australian neonatal intensive care units as we can in the study. We aim to enrol 66 infants in the trial, of whom half will receive lavage therapy.Read moreRead less
Generating And Applying Clinical Research To Improve The Outcomes Of Neonatal Intensive Care
Funder
National Health and Medical Research Council
Funding Amount
$568,892.00
Summary
Birth is a complex process and sometimes babies require help to make the transition to independent life. Professor Peter Davis is conducting research into how best to support this transition. This involves helping the lungs to work efficiently and supporting the changes in circulation of the blood to the brain and to the rest of the body. His work aims to quickly identify babies who need help and then provide better treatments to make sure they have the best chance of a healthy life.
Optimising Early Respiratory Support For Preterm Infants: The HIPSTER Trial
Funder
National Health and Medical Research Council
Funding Amount
$696,791.00
Summary
Premature babies who need breathing support are often given ‘nasal continuous positive airway pressure’ (NCPAP) via large nasal prongs. It works well but is uncomfortable. A newer, popular support is ‘high flow’ (HF) which uses smaller nose prongs and may be more comfortable, but HF has not been well studied. The HIPSTER trial will compare these systems in 750 premature babies, at random half will have NCPAP, half will have HF. We will assess whether babies do equally well with each system.
Right From The Start: Improving Respiratory Support For Preterm Infants From Their First Breath To Independent Breathing
Funder
National Health and Medical Research Council
Funding Amount
$266,623.00
Summary
My research program with the world leading research team at the Royal Women’s Hospital, Melbourne aims to improve the journey of preterm babies from birth, through the neonatal nursery, to a healthy start at home. Too many preterm babies die or have long term health problems. I will study gentler methods to support breathing from birth, investigate better ways of supporting them until they can breathe independently, and assess how to support more babies to stay in their birth hospitals.