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Control Of Alveolar Epithelial Cell Differentiation Before And After Birth
Funder
National Health and Medical Research Council
Funding Amount
$376,980.00
Summary
In the lung, gas exchange takes place in small terminal airsacs called alveoli. The internal surface of the alveoli are lined with 2 types of specialist cells, the type-I and type-II cells, which are essential for the normal functioning of the lung. Although both cell types look completely different and have very different functions, they are derived from the same precursor cell. However, it is not known what determines whether these cells will become a type-I or a type-II cell. This application ....In the lung, gas exchange takes place in small terminal airsacs called alveoli. The internal surface of the alveoli are lined with 2 types of specialist cells, the type-I and type-II cells, which are essential for the normal functioning of the lung. Although both cell types look completely different and have very different functions, they are derived from the same precursor cell. However, it is not known what determines whether these cells will become a type-I or a type-II cell. This application is directed towards understanding the mechanisms which determine the fate of these cells. This is critical information as the lung must have the correct proportions of both cell types to function properly as a gas exchange organ.Read moreRead less
Physical Determinants Of Lung Development Before And After Birth
Funder
National Health and Medical Research Council
Funding Amount
$442,500.00
Summary
Survival at birth is critically dependent upon the ability of the lungs to take on the role of exchanging gases; a role previously performed by the placenta. The lungs must, therefore, have grown and matured sufficiently during fetal life, before they are required at the time of birth. Inadequate development of the lungs during fetal life is the most common cause of death and disease in newborn babies. This may be due to premature birth, when the lungs have had insufficient time to develop, or i ....Survival at birth is critically dependent upon the ability of the lungs to take on the role of exchanging gases; a role previously performed by the placenta. The lungs must, therefore, have grown and matured sufficiently during fetal life, before they are required at the time of birth. Inadequate development of the lungs during fetal life is the most common cause of death and disease in newborn babies. This may be due to premature birth, when the lungs have had insufficient time to develop, or it may be due to inappropriate lung development during fetal life. It is important therefore, to understand the mechanisms that control growth and development of the lung both before and after birth. During fetal life the lungs are filled with liquid which expands the lungs and provides a stretch stimulus causing them to grow. Previously we have shown that a reduction in the degree of fetal lung expansion causes lung growth to cease. Likewise, if we increase the degree of lung expansion in the fetus, we induce a rapid increase in fetal lung growth and maturation. This stimulus is so potent that it can reverse an existing lung growth deficit, thus enabling survival of the newborn. In this application we will investigate the mechanisms by which alterations in lung expansion induce growth and maturation of the lung. Specifically we will investigate the role of calmodulin in fetal lung growth, because the genes that encode it are activated when the lung cells are growing most rapidly. In addition, we will identify other genes that are turned on or off during rapid growth of the lung because those genes are likely to play important roles in the regulation of fetal lung growth and development. We will also investigate the underlying differences in the control of lung growth at different stages of gestation, as well as investigate factors that regulate lung growth after birth, particularly in prematurely born animals.Read moreRead less
Alveolar Epithelial Cell Differentiation And Apoptosis: Effects Of Preterm Birth, Corticosteroids And Stretch.
Funder
National Health and Medical Research Council
Funding Amount
$484,500.00
Summary
In the lung, gas exchange takes place in small terminal airsacs called alveoli. The internal surface of the alveoli are lined with 2 types of specialist cells, the type-I and type-II cells. Both cells are essential for the normal functioning of the lung; type-I cells provide a thin barrier for the gas exchange, whereas type-II cells produce the surface-active material, surfactant. In order to survive after birth, the lungs of the newborn must have appropriate numbers of each of these cell types. ....In the lung, gas exchange takes place in small terminal airsacs called alveoli. The internal surface of the alveoli are lined with 2 types of specialist cells, the type-I and type-II cells. Both cells are essential for the normal functioning of the lung; type-I cells provide a thin barrier for the gas exchange, whereas type-II cells produce the surface-active material, surfactant. In order to survive after birth, the lungs of the newborn must have appropriate numbers of each of these cell types. However, babies that are born very prematurely have few, if any, mature cells as most are non-specialised cells that possess none of the characteristics of mature type-I and type-II cells. Therefore, the lungs of very preterm babies have low levels of surfactant, are prone to injury and infection and are not efficient in the exchange of oxygen and carbon dioxide. As such, these infants are at high risk of developing chronic lung disease which is a serious debilitating disease that has long term health implications. We believe that the non-specialised cells are more prone to injury and cell death than mature cells which makes the very premature infant more susceptible to the development of chronic lung disease. As the survival and respiratory health of these infants depends upon most type-I and type-II cells maturing after birth, it is critical to understand the factors that regulate their maturation. This information will allow the development of treatments that can enhance the maturation of these cell types. This application is focused towards understanding the factors that control maturation of type-I and type-II cells, as well as the role of the non-specialised cells in the development of chronic lung disease in babies that are born very prematurely.Read moreRead less
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.
Optimising Lung Protective Ventilation At Birth Using The Volumetric Response Of The Lung In A Preterm Lamb Model
Funder
National Health and Medical Research Council
Funding Amount
$611,021.00
Summary
Prematurity is a common problem which constitutes a major health-care burden. The preterm lung often cannot function independently at birth but is very fragile and susceptible to damage from the very first breathes of life. Life-saving mechanical ventilatory support must protect the lung from injury as well aid lung function. This project aims to improve ventilation strategies for supporting and protecting the preterm lung using novel approaches and innovative technologies.
Burden Of Respiratory Infection In The First 2 Years Of Life: A Birth Cohort Study Of Emerging Respiratory Pathogens.
Funder
National Health and Medical Research Council
Funding Amount
$1,168,963.00
Summary
Respiratory illnesses are extremely common, but there is little information about patterns of infection in the community using modern diagnostic tests. Children have the highest rates of infection and transmit to all other age groups. We intend to recruit 138 newborns to monitor respiratory symptoms and collect specimens for testing in the first two years of life. This will allow us to document illnesses due to known and newly identified respiratory pathogens.
Differentiation Of Respiratory Behaviour In The Mammalian Fetus
Funder
National Health and Medical Research Council
Funding Amount
$434,839.00
Summary
Mammalian fetuses are highly active from early in gestation, manifesting patterns of activity that are gradually transformed throughout fetal life, ultimately producing a repertoire of behaviours essential for postnatal survival. These behaviours are of fundamental importance to animals, and none more so than breathing which must perform effectively from the moment of birth. We plan to examine neural control mechanisms that transform a primitive pattern of breathing in the early gestation fetus ....Mammalian fetuses are highly active from early in gestation, manifesting patterns of activity that are gradually transformed throughout fetal life, ultimately producing a repertoire of behaviours essential for postnatal survival. These behaviours are of fundamental importance to animals, and none more so than breathing which must perform effectively from the moment of birth. We plan to examine neural control mechanisms that transform a primitive pattern of breathing in the early gestation fetus into the functional form that effectively ventilates the lungs after birth. In addition to examining the prenatal development of breathing, our program will focus on the developmental fate of a transient behaviour restricted to early development. This early behaviour plays a fundamental role in the development of the motor system before being extinguished under the influence of supraspinal inputs. This program will therefore provide a basis for understanding the mechanisms by which the brain establishes control of the motor circuits of the spinal cord during development. Further, the program is designed to provide a basis for understanding the respiratory problems so common in the preterm human infant.Read moreRead less