The Role Of Vestibular Efferents In The Mammalian Vestibulo-ocular Reflex.
Funder
National Health and Medical Research Council
Funding Amount
$323,341.00
Summary
The aim of this study is to determine how a group of nerve fibres that travel from the brain to the balance organ alter balance function in mammals. Balance function in mice will be tested under conditions that modify the balance system response. Results will be compared between normal mice and mutant mice in which these nerves do not function. This work will determine how these nerves alter balance function and whether they are a viable target for future patient treatments.
High Speed Video To Assess Eye Movements In Vestibular Dysfunction - A Validation Study
Funder
National Health and Medical Research Council
Funding Amount
$133,351.00
Summary
Dizziness affects a third of the population during their lives. Abnormal eye movements are often the best guide as to what has gone wrong in the dizzy person. The problem is that these eye movements can be difficult to see, and hence measure, as a way of diagnosing and then treating the dizziness. Video-oculography holds great promise for helping doctors identify the cause, and in many cases offer simple curative treatment, for dizziness.
Dizziness, vertigo, and imbalance affect nearly half the population by the age of 60 and balance-related falls, especially in the elderly, are a serious health concern. Surveys of primary care doctors have shown that dizziness and vertigo are as prevalent as hypertension and angina, and approximately 40% of the population experience dizziness severe enough to seek medical attention. Unfortunately, most symptoms are not relieved by currently available medical treatment. There is, however, a remar ....Dizziness, vertigo, and imbalance affect nearly half the population by the age of 60 and balance-related falls, especially in the elderly, are a serious health concern. Surveys of primary care doctors have shown that dizziness and vertigo are as prevalent as hypertension and angina, and approximately 40% of the population experience dizziness severe enough to seek medical attention. Unfortunately, most symptoms are not relieved by currently available medical treatment. There is, however, a remarkable hidden reserve of 'self-repair' in the balance system that can be triggered under certain conditions. We call this process 'vestibular compensation' and if we can understand those conditions and discover the means by which this reserve affects the nervous system, we may be able harness its power to alleviate the all distressing symptoms of imbalance. Perhaps we may even be able to apply these principles to other critical systems that may need repair. We propose to look at a key region in the central nervous system that is responsible for processing balance signals and may be very important in 'vestibular compensation'. We will try to activate this recovery process under controlled conditions so that we can understand the changes that occur. Specifically we will examine the role of vestibular (balance) neurons in the central nervous system that appear to be modified following trauma of the inner ear balance organs. We will use our new recording techniques to examine these vestibular neurons to see how their intrinsic properties may change and what external or internal factors influences this change. Our aim is to understand what factors promote and what factors inhibit full recovery.Read moreRead less
Our vestibular system provides us with the important sense of balance. When it fails we suffer debiltating bouts of vertigo and dizziness. A great deal is known about how balance signals are sent from the inner ear to our brains, but virtually nothing is known about the important signals the brain sends to the inner ear. In this study we will use a new perparation develped in our laboratory to examine how these essential brain signals control the function of our balance organs.