Novel Strategies For Improving Respiratory Support And Outcomes For Very Preterm Babies
Funder
National Health and Medical Research Council
Funding Amount
$8,381,820.00
Summary
Very premature birth is the commonest cause of illness and death in newborn babies, making it one of the most serious and costly issues in perinatal medicine. The major problem suffered by very premature babies is lung immaturity and its associated harmful effects on brain development. Most very premature babies require resuscitation followed by ventilatory support,often for several weeks. This is extremely expensive and places an enormous financial burden on health care systems. Furthermore, it ....Very premature birth is the commonest cause of illness and death in newborn babies, making it one of the most serious and costly issues in perinatal medicine. The major problem suffered by very premature babies is lung immaturity and its associated harmful effects on brain development. Most very premature babies require resuscitation followed by ventilatory support,often for several weeks. This is extremely expensive and places an enormous financial burden on health care systems. Furthermore, it increases the risks of respiratory illnesses, including bronchopulmonary dysplasia and chronic lung disease which can impair breathing and increase susceptibility to respiratory disease such as asthma later in life. The overall aim of this program is to improve outcomes for very premature babies, including less lung injury, better respiratory health and shorter stays in hospitals. In order to reduce the health burden caused by very premature birth on the community we need to know more about how it alters the normal development of the lungs in the newborn period and into later life. In particular, we need to understand the cellular and molecular processes involved in lung development so that we can identify gene networks and developmental processes that are disrupted by severe premature birth. Such knowledge is necessary to provide a more rational, scientific basis for managing and treating the alterations in lung structure and function caused by premature birth. We also need to develop better ways of resuscitating and ventilating these infants so that lung injury is minimized.The research team is led by two neonatologists and three biomedical research scientists with a proven record of effective collaboration. This team is internationally unique in that it includes practicing neonatologists, respiratory physiologists and molecular biologists who have collaborated together productively and are regarded as world leaders in their respective fields. New talents have been brought into the team to provide expertise in pulmonary stem cell biology, the design of novel steroid drugs, and clinical follow-up. Together, this team has the potential (a) to greatly enhance the understanding of the impact of very premature birth on the developing lung, (b) to improve resuscitation and ventilation techniques, and (c) to translate the new knowledge into clinical practice to improve the outcome for prematurely born babies. Using well characterized animal models we will determine gene networks involved in fetal lung development and how these are altered by premature birth. The successful transition from fetal to postnatal life is critical for survival at birth but more information is needed. Using newborn lambs and rabbits, we will trial novel strategies for enhancing the transformation of the immaturelung into an effective gas exchange organ at birth. New data on lung aeratioRead moreRead less
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
Developmental Aspects Of Respiratory Inflammation, Allergy And Asthma
Funder
National Health and Medical Research Council
Funding Amount
$7,169,609.00
Summary
Asthma develops as a complex series of interactions between genetic susceptibility and environmental exposures occurring in early life. While many children grow out of asthma others do not and develop the chronic form of the disease that persists into adult life. Our research involves understanding why some susceptible children develop asthma and why this becomes chronic in some. We will undertake studies in children to find out how and why this occurs. A major part of our studies involve longit ....Asthma develops as a complex series of interactions between genetic susceptibility and environmental exposures occurring in early life. While many children grow out of asthma others do not and develop the chronic form of the disease that persists into adult life. Our research involves understanding why some susceptible children develop asthma and why this becomes chronic in some. We will undertake studies in children to find out how and why this occurs. A major part of our studies involve longitudinal studies in cohorts of children recruited before birth. Having the ability to study children as they grow and develop conditions such as allergies and asthma allows us to understand why these conditions occur and allow us to predict which children are likely to develop them. Our research Program also has a solid focus on Translational Research, in which we will use the findings from our basic science studies to develop and test new methods of preventing and of treating asthma. These studies will include new methods for preventing the development of allergies, preventing the damage done to the lungs by severe viral respiratory infections in early life and better methods of treating established allergic asthma by improving immunotherapy techniques. By its very nature, primary prevention of disease in young children is controversial and raises some interesting questions. As part of this Program we intend to initiate consultation and debate in public, academic, regulatory and industry circles. An important role for our Program is shifting the current emphasis away from treatment of established disease towards preventing disease occurring. This is the best way to decrease the health, social and economic burden of chronic diseases such as asthma.Read moreRead less
Disorders of sexual development (DSDs) are surprisingly common, and often result in infertility, genital abnormalities, gender mis-assignment and long-term psychological trauma. In this Program we will pool our expertise in human molecular genetics, mouse developmental biology and protein chemistry to identify genes important for sex determination and development of the gonads, and discover how they contribute to DSD, in order to improve clinical care to patients with DSD.
THE INTERFACE BETWEEN INNATE AND ADAPTIVE IMMUNITY
Funder
National Health and Medical Research Council
Funding Amount
$4,905,420.00
Summary
Allergic disorders including asthma are amongst the most prevalent diseases in Australia afflicting up to 25% of the population and costing the Australian Government in excess of $600 million annually. This program aims to understand the molecular and cellular mechanisms controlling airway inflammation, focusing on the cross-talk between scavenger cells at airway surfaces and circulating cells of the immune system. These studies will combine sophisticated mouse models of airway inflammation in t ....Allergic disorders including asthma are amongst the most prevalent diseases in Australia afflicting up to 25% of the population and costing the Australian Government in excess of $600 million annually. This program aims to understand the molecular and cellular mechanisms controlling airway inflammation, focusing on the cross-talk between scavenger cells at airway surfaces and circulating cells of the immune system. These studies will combine sophisticated mouse models of airway inflammation in the laboratory with clinical investigation and analysis of human tissue. Understanding these processes will translate into better treatments for patients suffering from life-threatening allergy and asthma.Read moreRead less
Molecular Genetics Of Sex Determination And Gonad Development
Funder
National Health and Medical Research Council
Funding Amount
$4,580,898.00
Summary
Intersex disorders - ranging in severity from hypospadias (misplacement of the urethral opening) to complete sex reversal - are surprisingly common, with estimates as high as 4% of all live births. These disorders usually result in infertility, genital abnormalities, gender mis-assignment and long-term psychological trauma. The cause of these problems is most often the failure of the delicate network of gene regulation that is responsible for proper development of testes or ovaries in the embryo ....Intersex disorders - ranging in severity from hypospadias (misplacement of the urethral opening) to complete sex reversal - are surprisingly common, with estimates as high as 4% of all live births. These disorders usually result in infertility, genital abnormalities, gender mis-assignment and long-term psychological trauma. The cause of these problems is most often the failure of the delicate network of gene regulation that is responsible for proper development of testes or ovaries in the embryo. This research program will identify genes important for sex determination and development of the gonads, find out how these genes function and interact, and discover how they contribute to cases of aberrant sexual development in humans. Australia boasts three of the foremost international researchers in sex determination. Their contributions have been fundamental to the advancement of the field, including the identification and characterization of the master testis determining gene and other genes critical for sex determination. They now propose to pool their expertise in human molecular genetics, mouse developmental biology and protein chemistry to bring spectacular advances in our knowledge of human sexual development and its associated disorders. This information will be used to bring improved clinical care to patients withdisorders of sexual development.Read moreRead less
The immune system plays an important role in protecting the host from viral and bacterial infections, and inhibits cancer onset and progression. Unfortunately the immune system can sometimes lose specificity and attack the host resulting in autoimmune diseases such as diabetes. This research team has played a vital role in characterising the specific activities of immune cells and the associated factors. By understanding these complex processes the team aims to harness the unique therapeutic pro ....The immune system plays an important role in protecting the host from viral and bacterial infections, and inhibits cancer onset and progression. Unfortunately the immune system can sometimes lose specificity and attack the host resulting in autoimmune diseases such as diabetes. This research team has played a vital role in characterising the specific activities of immune cells and the associated factors. By understanding these complex processes the team aims to harness the unique therapeutic properties of our own immune system and translate their findings into the clinic.Read moreRead less
Molecular Mechanisms Of Cardiac Function And Disease
Funder
National Health and Medical Research Council
Funding Amount
$8,213,642.00
Summary
Heart disease remains the leading cause of death in our society. Almost two million Australians suffer from the debilitating effects of heart disease and it is the leading cause of premature permanent disability in our workers. Heart defects are also the most common type of birth defect and the leading cause of deaths in infants dying from birth defects. Many of these problems can be attributed directly to defects in the development, repair and-or function of heart muscle and, at the cellular le ....Heart disease remains the leading cause of death in our society. Almost two million Australians suffer from the debilitating effects of heart disease and it is the leading cause of premature permanent disability in our workers. Heart defects are also the most common type of birth defect and the leading cause of deaths in infants dying from birth defects. Many of these problems can be attributed directly to defects in the development, repair and-or function of heart muscle and, at the cellular level, of heart muscle cells or cardiomyocytes. Understanding the cardiomyocyte as well as integrated heart development, biology, physiology and function, therefore, holds great promise for major advances in the prevention and treatment of contemporary heart diseases. This Program Grant brings together a unique team of interactive researchers with expertise in cardiovascular physiology, as well as developmental, cellular and molecular biology. The outcomes anticipated from new insights into heart biology that will result from the proposed studies, are the development of novel therapeutic approaches for the prevention and treatment of heart attacks and heart failure.Read moreRead less