Investigation Of The Influence Preterm Birth On Lung Structure And Function In School Age Children.
Funder
National Health and Medical Research Council
Funding Amount
$204,482.00
Summary
Bronchopulmonary dysplasia (BPD) remains the most significant chronic lung complication of premature birth. While some information on the long term respiratory outcomes in BPD exist there are no comprehensive studies linking lung structure, function and respiratory symptoms and relating these changes to neonatal history. Studies of this kind are essential to ensure future healthcare for these children can be planned accordingly.
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
Imaging Lung Aeration And Lung Motion Following Very Premature Birth
Funder
National Health and Medical Research Council
Funding Amount
$517,631.00
Summary
Using a synchrotron as an X-ray source, we will image the lungs as they aerate at birth and optimise ventilation strategies that improve lung aeration while minimising the risk of ventilation-induced lung injury.
Respiratory failure at birth is a major cause of death and disease in newborn infants. At birth the airways must be cleared of liquid to allow the inhalation of air, but, little is known about the process of lung aeration, because it has not been possible to observe or measure it. We have developed imaging and analytical techniques to observed and measure lung aeration. We will determine ventilation procedures that promote uniform lung aeration and minimise lung injury in ventilated infants.
Postnatal Dexamethasone In Tiny Babies: Does It Do More Good Than Harm?
Funder
National Health and Medical Research Council
Funding Amount
$394,688.00
Summary
The survival rate for tiny or very premature babies has improved dramatically in recent times, from below 10% in the 1960s to greater than 70% in the 1990s. However, some of these babies require prolonged periods of help with breathing and oxygen treatment to survive, and many develop a form of chronic lung disease in the newborn period. A powerful group of drugs, known as corticosteroids, have been used to treat or prevent this chronic lung disease in newborn babies, with some success in shorte ....The survival rate for tiny or very premature babies has improved dramatically in recent times, from below 10% in the 1960s to greater than 70% in the 1990s. However, some of these babies require prolonged periods of help with breathing and oxygen treatment to survive, and many develop a form of chronic lung disease in the newborn period. A powerful group of drugs, known as corticosteroids, have been used to treat or prevent this chronic lung disease in newborn babies, with some success in shortening the time that the babies need help with breathing. However, corticosteroids have the potential to cause long-term harm to the developing baby's brain, and may cause lifelong problems with thinking, walking, talking, seeing or hearing. We want to test in a clinical trial if corticosteroids, specifically dexamethasone, can reduce the need for help with breathing and the rate of chronic lung disease without causing long-term problems to the developing baby's brain. Babies who are very tiny (born weighing less than 1000 g), or born very early (born before 28 weeks of pregnancy, or more than 12 weeks premature) will be eligible for this study if they still need help with their breathing after one week of age from a machine called a respirator, and their doctor considers that corticosteroids might be helpful to the baby's breathing. Some babies will receive dexamethasone and other babies will be treated with a harmless placebo - chance will decide which treatment the baby receives. All other aspects of the babies' care will continue as normally. Children who survive to 2 years of age will be assessed fully to determine if they have any problems with their health, including problems with their thinking, walking, talking, seeing or hearing. We will determine if dexamethasone is helpful or not for very tiny or very premature babies who have breathing problems after the first week of life. We will also measure the economic impact of dexamethasone treatment in these babies.Read moreRead less
SCHOOL-AGE OUTCOME FOR VERY TINY/PRETERM CHILDREN BORN IN VICTORIA IN 1991-92
Funder
National Health and Medical Research Council
Funding Amount
$252,956.00
Summary
The survival rate for tiny or very premature babies has improved dramatically in recent times, from below 10% in the 1960s to greater than 70% in the 1990s. Several new treatments have helped to improve their survival rate, but some have the potential to cause long-term harm to the developing baby's brain or lung, and may cause lifelong problems with thinking, walking, talking, seeing, hearing, growth or breathing. Babies who are very tiny (born weighing less than 1000 g), or born very early (bo ....The survival rate for tiny or very premature babies has improved dramatically in recent times, from below 10% in the 1960s to greater than 70% in the 1990s. Several new treatments have helped to improve their survival rate, but some have the potential to cause long-term harm to the developing baby's brain or lung, and may cause lifelong problems with thinking, walking, talking, seeing, hearing, growth or breathing. Babies who are very tiny (born weighing less than 1000 g), or born very early (born before 28 weeks of pregnancy, or more than 12 weeks premature) will be assessed long term (to 8-9 years of age), as broadly as possible, and in comparison with normal birthweight (NBW, birthweight >2499 g) children. Outcomes will encompass academic progress and behaviour, brain function, general health, growth, and respiratory health. We will compare the outcomes for very tiny-preterm children who were treated with several of these new therapies with those who were not so treated. We will assess whether alternative measures of long term outcome that assess the quality of life are applicable to very tiny-preterm children. If so, these measures could be used much more widely, since they are cheaper and less time-consuming.Read moreRead less
Lung Injury Following Resuscitation In Immature Lambs
Funder
National Health and Medical Research Council
Funding Amount
$227,036.00
Summary
The primary aim of this project is to identify techniques for resuscitating premature babies that cause little or no damage to their lungs. We also want to identify factors that enhance the clearance of liquid from the lungs so air can easily enter to deliver oxygen and remove carbon dioxide at birth. About 1% of babies are born very prematurely and many develop respiratory distress syndrome (RDS). This is the major cause of illness and death in infants born at less than 32 weeks' gestation. Mos ....The primary aim of this project is to identify techniques for resuscitating premature babies that cause little or no damage to their lungs. We also want to identify factors that enhance the clearance of liquid from the lungs so air can easily enter to deliver oxygen and remove carbon dioxide at birth. About 1% of babies are born very prematurely and many develop respiratory distress syndrome (RDS). This is the major cause of illness and death in infants born at less than 32 weeks' gestation. Most of the survivors required assisted ventilation during their first weeks of life. In 1995, 2381 premature infants were ventilated in Australia and New Zealand, requiring 36,407 days of ventilator care. Thus, this is a serious condition with a high financial and social cost. It is known that RDS is caused by damage to the very immature lung which starts an inflammatory reaction. We don't know what triggers the damage and inflammation but believe that the way babies are resuscitated may damage the lungs. Currently, babies are resuscitated with a resuscitation bag squeezed by hand, with 100% oxygen. There is no pressure to stop the lungs collapsing during expiration. As the volume of gas delivered with each breath is not measured, it is possible that the volumes are too large and damage the lungs. This project will investigate whether less damage occurs to the lungs of preterm lambs when resuscitation uses a modern neonatal ventilator where each inflation is limited to a known volume. A small distending pressure will be used to stop the lungs collapsing during expiration. We will also investigate factors that enhance the clearance of liquid from the lungs after the initiation of breathing. The failure to clear lung liquid greatly limits the ability of babies to breathe and exposes those parts of the lung that are cleared to a much greater risk of injury. The results of this study will be directly applicable to the treatment and care of prematurely born babies.Read moreRead less