DEVELOPMENT OF CARDIOVASCULAR CONTROL DURING SLEEP IN HUMAN INFANTS AFTER PRETERM BIRTH
Funder
National Health and Medical Research Council
Funding Amount
$358,537.00
Summary
Infants spend the major part of their life in sleep, and the period between birth and 6 months of age sees dramatic changes in their sleep organisation. Coincidently, there are dramatic developmental changes in the infant's heart and blood pressure control systems, and the ability to compensate for stress such as falls of blood pressure (hypotension) or in the level of oxygen in the blood (hypoxaemia). In infants born preterm, the risks of hypoxaemia, and even death are significantly greater dur ....Infants spend the major part of their life in sleep, and the period between birth and 6 months of age sees dramatic changes in their sleep organisation. Coincidently, there are dramatic developmental changes in the infant's heart and blood pressure control systems, and the ability to compensate for stress such as falls of blood pressure (hypotension) or in the level of oxygen in the blood (hypoxaemia). In infants born preterm, the risks of hypoxaemia, and even death are significantly greater during sleep than during wakefulness, but why this is so is uncertain. This study will examine the ability of infants to respond to stress during sleep. Four groups of infants will be examined: healthy infants born at normal gestation; healthy infants born prematurely (preterm); preterm infants who have experienced mild hypoxaemia soon after birth; and preterm infants who have suffered more severe hypoxaemia because of lung disease. Infants will be studied in a sleep laboratory during day-time sleep, and their ability to control blood pressure will be determined. By contrasting the effectiveness of blood pressure control between the infant groups we aim to determine whether preterm infants have lasting problems as a result of their premature birth, or their exposure to hypoxaemia. By contrasting infants in sleep and wakefulness, we aim to assess whether the risks of poorer blood pressure control are greater in sleep.Read moreRead less
The aim of this proposal is to evaluate a novel therapy option for children with a genetic disorder called mucopolysaccharidosis (MPS). MPS arise from the build up of complex carbohydrates in cells within the body due to the deficiency of an enzyme required for their degradation. By decreasing the synthesis of carbohydrate we can manipulate the level of stored carbohydrate and alleviate the pathology associated with MPS. The novel therapy is based on a chemical modification of glucose that inhib ....The aim of this proposal is to evaluate a novel therapy option for children with a genetic disorder called mucopolysaccharidosis (MPS). MPS arise from the build up of complex carbohydrates in cells within the body due to the deficiency of an enzyme required for their degradation. By decreasing the synthesis of carbohydrate we can manipulate the level of stored carbohydrate and alleviate the pathology associated with MPS. The novel therapy is based on a chemical modification of glucose that inhibits carbohydrate synthesis and is termed substrate deprivation therapy.Read moreRead less
I am a physiologist working in the area of paediatric sleep and its disorders to elucidate mechanisms involved in Sudden Infant Death Syndrome, the consequences of preterm birth for later development of cardiovascular compromise and the consequences of sleep disordered breathing in children for disturbance of the cardiovascular system.
Does Maladaptive Remodelling Of The Heart And Vasculature In Response To Preterm Birth Lead To Long-term Cardiovascular Risk?
Funder
National Health and Medical Research Council
Funding Amount
$535,086.00
Summary
Being born prematurely is linked to the development of high blood pressure (a major risk factor for cardiovascular disease) later in life. In this project we will examine whether injury to the cells lining the cardiovascular system and/or structural changes in the wall of the arteries and the heart, as a result of being born early, lead to an elevation in blood pressure and heart dysfunction in adulthood.
Being Born Small Is Not Good For The Heart:early Detection Of Cardiovascular Risk
Funder
National Health and Medical Research Council
Funding Amount
$486,757.00
Summary
Intra uterine growth restriction(IUGR) is linked to adult onset of cardiovascular disease. However, little is known about the mechanism(s) which underlie this link or which babies are most at risk. This study aims to assess cardiovascular function in infants and children who were growth restricted. Early identification of cardiovascular dysfunction may aid in new opportunities for monitoring and therapeutic targets to ultimately reduce later onset of cardiovascular morbidity in this population.
Therapy For CNS Degeneration In MPS Disorders That Targets Both Glycosaminoglycan And Ganglioside Storage.
Funder
National Health and Medical Research Council
Funding Amount
$368,043.00
Summary
Children with seven of the eleven types of mucopolysaccharidosis (MPS) disorders exhibit a profound, irreversible neurological deterioration that manifests in infancy. This results from the continual buildup of undegraded sugar and fat in brain cells. The goal of this proposal is to prevent the accumulation of lipid alone or both lipid and sugar in the brain in order to alter the progression of neurological disease. Treatment will be assessed in mouse models of MPS.
Does Adenotonsillectomy Change Vascular Function In Children With Sleep Breathing Disorders?
Funder
National Health and Medical Research Council
Funding Amount
$522,105.00
Summary
Sleep breathing disorders affect 10% of all children and when severe, obstruction in the upper airways causes serious deficits in growth, development, brain function and heart health. But even mild snoring (without obstruction) may also cause poor health in the arteries that supply blood to the brain and heart, as well as the smaller arteries in the arms and legs. In both adults and children with conditions like diabetes and obesity, poor blood vessel health has been shown to greatly increase th ....Sleep breathing disorders affect 10% of all children and when severe, obstruction in the upper airways causes serious deficits in growth, development, brain function and heart health. But even mild snoring (without obstruction) may also cause poor health in the arteries that supply blood to the brain and heart, as well as the smaller arteries in the arms and legs. In both adults and children with conditions like diabetes and obesity, poor blood vessel health has been shown to greatly increase the future risk of heart attacks, angina and strokes. Children with severe sleep breathing disorders (such as sleep apnoea syndrome) are currently treated by removal of the tonsils and adenoids, which typically resolves snoring and improves sleep, but it is not yet known whether there are any benefits for blood vessel health. The earliest signs of blood vessel disease in children are abnormal function of the lining of the blood vessels (endothelial dysfunction) and thickening of the lining of blood vessels (intima media thickness). They precede the adult diseases of atherosclerosis - which causes heart attacks and strokes, and diabetic kidney and eye disease. These changes can be measured accurately and non-invasively using ultrasound imaging of arteries in the neck and arm. Our primary aim is to assess whether changes in blood vessel health occur in children with sleep breathing disorders across the range of severity, with a secondary aim to measure any changes in cardiovascular control during both sleep (when snoring occurs). Most importantly, by assessing children before and after surgery, we will be able to see for the first time whether treatment of childhood snoring improves blood vessel health. This study may have major implications for the clinical management of snoring children, who may require treatment at an earlier age to prevent poor blood vessel health and an increased risk of cardiovascular diseases later in life.Read moreRead less