Testing Of Vestibular Function By Active Head Movements.
Funder
National Health and Medical Research Council
Funding Amount
$180,509.00
Summary
The vestibular system of the inner ear is responsible for our sense of balance and for maintaining clear vision and stable posture during head movements. This complex interdependent sensory system is comprised of three paired semicircular canals for sensing head rotations and two paired otolith organs for sensing head position and linear movements of the head. A major goal of our research programs is to develop simple tests which can be used in the clinic or at the bedside to diagnose specific d ....The vestibular system of the inner ear is responsible for our sense of balance and for maintaining clear vision and stable posture during head movements. This complex interdependent sensory system is comprised of three paired semicircular canals for sensing head rotations and two paired otolith organs for sensing head position and linear movements of the head. A major goal of our research programs is to develop simple tests which can be used in the clinic or at the bedside to diagnose specific deficits of each vestibular sensory region. Most present clinical tests only test the part of the system concerned with horizontal head rotations but there are many other sensory regions in the inner ear whose functional status needs to be evaluated, especially those regions concerned with signalling linear head movements and head position - the otolith sensory regions. The usual principle in vestibular testing is to move the person's head and measure the eye movement which occurs in response to that passive movement. One of our recent observations suggest that it may be possible to measure vestibular functioning during active head movements. Active testing does not require expensive, invasive testing systems and could be carried out in the clinic. This project will compare the eye movement response to active and passive head movements in the same patients. We will test both the angular and linear sensing systems by asking patients to rotate their head or slide it laterally, recording the head movement stimulus and eye movement response. Two groups of patients will be studied; those who have recovered well and those who are poorly recovered after unilateral vestibular loss. The outcome will, we hope, be safe simple low cost tests which will evaluate the functional status of all the inner ear sensory regions and yet be clinically practical. They may provide the answer as to why some patients do not recover well after unilateral loss whereas others do.Read moreRead less
Inner Ear Protein Function Studied Using RNA Interference
Funder
National Health and Medical Research Council
Funding Amount
$365,230.00
Summary
The proper functioning of all cells tissues and organs depends on specific proteins that are manufactured by readout from the genome. The inner ear is no exception to this general principle and hence the normal hearing process depends critically on the proper functioning of key proteins. However, because of inherent limitations in the methods used to study their function in living tissues, the precise role of many inner ear proteins in the complex hearing process is not known or is at best poorl ....The proper functioning of all cells tissues and organs depends on specific proteins that are manufactured by readout from the genome. The inner ear is no exception to this general principle and hence the normal hearing process depends critically on the proper functioning of key proteins. However, because of inherent limitations in the methods used to study their function in living tissues, the precise role of many inner ear proteins in the complex hearing process is not known or is at best poorly understood. In this project we will use a recently developed technique called RNA interference, to reduce the amounts of specific targeted proteins in the inner ear of experimental animals. We will then study the effects on the inner ear's ability to detect sounds. The technique differs from other genome-manipulating methods because it can be applied to a single intact organ in the mature animal. The results of this project will illuminate the role of specific inner ear proteins in the process of sound detection. The project will also demonstrate the feasibility of using the RNA interference technique to modify function in the adult inner ear, thus paving the way for future therapies for inherited hearing disorders.Read moreRead less