Sleep Disorders And Human Health - Prevalence, Pathogenesis, Diagnosis And Treatment
Funder
National Health and Medical Research Council
Funding Amount
$640,210.00
Summary
My primary research focus is to understand the mechanisms underlying sleep-related breathing disorders, such as obstructive sleep apnoea, and develop better ways to diagnose and treat them. I do this by undertaking university-based epidemiology studies in a large sample of community participants, by undertaking smaller hospital-based physiology studies and by working with US and Australian start-up companies to design and test new treatment for sleep disorders.
Addressing Therapeutic Challenges In Sleep Disorders
Funder
National Health and Medical Research Council
Funding Amount
$851,980.00
Summary
The aim of this fellowship is to improve the health and well-being of Australians by reducing the burden of sleep and disorders that disrupt the body clock such as shift work. My program will involve different fields of research combining their efforts together to understand more about sleep apnea and insomnia, the two most common sleep disorders. By this strategy, better treatment for sleep disorders will be found with particular impact on our aging population
NeuroSleep: The Centre For Translational Sleep And Circadian Neurobiology
Funder
National Health and Medical Research Council
Funding Amount
$2,659,061.00
Summary
NeuroSleep, the Centre for Translational Sleep and Circadian Neurobiology, will foster innovative clinical research and translation to develop national capacity in understanding how sleep disorders and dysfunction of the body clock impact on health. The Centre will focus its activities on the two-way relationship between disrupted sleep and body clock systems and brain disorders. Our goal is to improve brain performance, workplace safety and health outcomes in patients with sleep and circadian d ....NeuroSleep, the Centre for Translational Sleep and Circadian Neurobiology, will foster innovative clinical research and translation to develop national capacity in understanding how sleep disorders and dysfunction of the body clock impact on health. The Centre will focus its activities on the two-way relationship between disrupted sleep and body clock systems and brain disorders. Our goal is to improve brain performance, workplace safety and health outcomes in patients with sleep and circadian dysfunction and in the general community.Read moreRead less
Optimal Management Of Children With Obstructive Sleep Apnoea
Funder
National Health and Medical Research Council
Funding Amount
$178,157.00
Summary
Disorders of breathing during sleep affect over 1.5 million children in the Australian community and have negative impacts on cognitive functioning, behaviour and quality of life. Early identification and treatment is paramount to optimise the health of these children. My research focuses on prompt identification and appropriate treatment of breathing disorders during sleep, to enhance health care outcomes for individuals and health service provision.
Upper Airway Dilator Muscle Activity During Sleep Onset.
Funder
National Health and Medical Research Council
Funding Amount
$211,320.00
Summary
Disorders of breathing during sleep are recognised as a major health problem. Of these, Obstructive Sleep Apnoea is the most prevalent, occurring in approximately 4% of the male and 2% of the female population. In this disorder the upper airway collapses during sleep causing cessation of airflow and subsequent oxygen desaturation. The airway is thought to occlude because dilator muscles are unable to sustain patency in the face of the negative pressures generated by inspiratory effort. In order ....Disorders of breathing during sleep are recognised as a major health problem. Of these, Obstructive Sleep Apnoea is the most prevalent, occurring in approximately 4% of the male and 2% of the female population. In this disorder the upper airway collapses during sleep causing cessation of airflow and subsequent oxygen desaturation. The airway is thought to occlude because dilator muscles are unable to sustain patency in the face of the negative pressures generated by inspiratory effort. In order for patency of the airway to be re-established some form of arousal from sleep must occur . As the UA is likely to collapse on the resumption of sleep, the cycle becomes repetitive, causing significant sleep disruption. OSA is a significant health risk, being associated with increased risk of cardiovascular disorders, increased mortality, excessive daytime sleepiness, reduced daytime performance and increased risk of accidents. In previous work we have demonstrated that normal sleep related changes in the activity of upper airway dilator muscles result in a reduction in the calibre of the airway at sleep onset. This exposes some individuals, such as those with narrow airways, to airway obstruction during sleep. We have also reported that elderly men have larger reductions in upper airway muscle activity at sleep onset than younger men, suggesting one reason why they may have a higher prevalence for Obstructive Sleep Apnea. The aim of the present project is to determine what causes the larger reductions in upper airway muscle activity in older males. The answer to this question will contribute to understanding why this group is so susceptible to Obstructive Sleep Apnea and will elucidate the mechanisms leading to the disorder.Read moreRead less
Sleep loss through sleep deprivation and sleep disorders is a common problem causing impaired brain and heart function as well as increasing human errors in the workplace. The fellowship will involve new research focusing on how better treatment of sleep problems can reduce blood pressure, vascular disease and road crashes. Cutting edge research facilities will help new studies into how jet lag and shiftwork impair health and how to counter this risk.
The Influence Of Sleep On The Behaviour Of The Upper Airway Muscles, Genioglossus And Tensor Palatini
Funder
National Health and Medical Research Council
Funding Amount
$295,880.00
Summary
The human airway has limited bone or cartilage support and muscular activity is required to keep the airway open. Central activation of these muscles is reduced during sleep, resulting in the disorder Obstructive Sleep Apnoea. Potential treatments include pharmocological or electrical stimulation of upper airway muscles. However, this is hampered by a lack of understanding of the control of upper airway muscles. This project will study two critical muscles, genioglossus and tensor palatini.