Dysfunction of the nervous system plays an important role in the symptoms of many respiratory diseases. For example, excessive non-productive coughing, elevated mucous secretion, reduced airway patency and hyperreactivity are all characteristic symptoms of diseases such as asthma and all involve over-activity of the nervous system. This research aims to understand the neural circuitry that is involved in controlling the airways and the mechanisms that underlie how this circuitry can become dysfu ....Dysfunction of the nervous system plays an important role in the symptoms of many respiratory diseases. For example, excessive non-productive coughing, elevated mucous secretion, reduced airway patency and hyperreactivity are all characteristic symptoms of diseases such as asthma and all involve over-activity of the nervous system. This research aims to understand the neural circuitry that is involved in controlling the airways and the mechanisms that underlie how this circuitry can become dysfunctional.Read moreRead less
Mechanisms Controlling Sympathetic Nerve Activity To The Heart
Funder
National Health and Medical Research Council
Funding Amount
$101,220.00
Summary
In heart failure there is a large increase in sympathetic nerve activity to the heart and the kidney that has detrimental effects which is related to mortality in patients. The areas in the brain causing the increased nerve activity to the heart are unknown. We will investigate the role of two key brain areas in mediating this increase. In addition we will also focus on local mechanisms that are responsible for the increase in noradrenaline spillover.
We stand without falling by using silent senses from muscles and the balance organs of the inner ear to unconsciously detect and control our movements. Since the leg muscles provide both the force and the sense, and critically rely on good circulation, they are vitally important. I propose to study how these sensory and muscle functions are used to control balance, posture and stepping reflexes, making it easier to identify older people who will fall and design new preventative strategies.
Mood and anxiety disorders represent a tremendous cause of disability and morbidity. This research will use cutting-edge brain imaging technologies to understand why these disorders typically emerge in young people and whether brain imaging can reliably predict the effectiveness of different treatments for individual patients.