Role Of Load Detection And Compensation In Pathogenesis Of Obstructive Sleep Apnea.
Funder
National Health and Medical Research Council
Funding Amount
$340,867.00
Summary
This proposal will use novel techniques to explore how defective responses to the threat posed by a collapsing upper airway contribute to the Obstructive Sleep Apnea syndrome, a disease involving repetitive collapse of the upper airway in sleep. Responses to small increases in the resistance to inspiratory airflow will be examined by measuring the small electrcal responses in the brain to these loads, and the response of the muscles responsible for maintaining airway patency to the collapsing fo ....This proposal will use novel techniques to explore how defective responses to the threat posed by a collapsing upper airway contribute to the Obstructive Sleep Apnea syndrome, a disease involving repetitive collapse of the upper airway in sleep. Responses to small increases in the resistance to inspiratory airflow will be examined by measuring the small electrcal responses in the brain to these loads, and the response of the muscles responsible for maintaining airway patency to the collapsing forces induced by these loads, in both wakefulness and sleep. The brain's response to resistive loads will also be evaluated using the techique of functional magnetic resonance imaging, which demonstrates areas of the brain activated by a stimulus.Read moreRead less
Cell-selective Deletion Of Brain AT1A Receptors In Hypertension: Effect On Blood Pressure, Increased ROS Production And Inflammation.
Funder
National Health and Medical Research Council
Funding Amount
$578,268.00
Summary
Angiotensin is important for normal regulation of blood pressure but is also involved in cardiovascular diseases. Interruption of angiotensin’s actions is a common treatment of these diseases. Functional deletion of angiotensin receptors decreases blood pressure. Surprisingly the site(s) in the body responsible for this decrease are not known. We will examine the role of angiotensin receptors in the brain in the control of blood pressure in health and in cardiovascular disease.
Reduced Baroreceptor Reflex Control Of Heart Rate In Chronic Renal Failure
Funder
National Health and Medical Research Council
Funding Amount
$490,288.00
Summary
People with kidney disease are more likely to die of heart disease than their ailing kidneys. One reason is because their hearts do not respond properly to changes in blood pressure, as the nerve circuits controlling the heart become dysfunctional. We will examine where and why components of this circuit are unable to respond to changes in blood pressure. This will help guide new treatments to reduce the incidence of heart disease and risk of death associated with kidney disease.