Cellular Mechanisms Underlying The Sense Of Balance
Funder
National Health and Medical Research Council
Funding Amount
$192,960.00
Summary
Dizziness, vertigo, and imbalance are major reasons for visits to the doctor, particularly by the elderly. For example, balance related falls account for an astonishing 50% of accidental deaths in people over 65. Inner ear disturbances account for 85% of these cases. Illness, infections, disease, head trauma or simply the natural aging process cause these disturbances and it is thought that they result in abnormal signals being sent from the inner ear to the brain. In spite of the health costs a ....Dizziness, vertigo, and imbalance are major reasons for visits to the doctor, particularly by the elderly. For example, balance related falls account for an astonishing 50% of accidental deaths in people over 65. Inner ear disturbances account for 85% of these cases. Illness, infections, disease, head trauma or simply the natural aging process cause these disturbances and it is thought that they result in abnormal signals being sent from the inner ear to the brain. In spite of the health costs associated with disorders of balance, very little is known about how signals are generated in our vestibular organs, let alone what abnormal changes may occur. Our attempts to understand balance in humans have been hampered by the lack of suitable experimental models. This proposal takes advantage of a newly developed mouse preparation to study key problems that could not be realistically addressed in whole animal or dissociated cells. We will investigate three critical components of balance organs. These components are: 1) hair cells that detect motion; 2) nerve endings that send information from hair cells to the brain; and 3) nerve endings that bring information from the brain. The aim of this proposal is to understand how these components interact with each other to provide us with a sense of balance. This knowledge will be the first of its kind and contribute significantly to our understanding of human vestibular function and pathology.Read moreRead less
Reflex Control Of Human Jaw Muscles By Periodontal Mechanoreceptors
Funder
National Health and Medical Research Council
Funding Amount
$405,173.00
Summary
An understanding of the functional connection between the jaw muscles and various receptor organs in and around the mouth is necessary to elucidate the process of chewing and its underlying rules. Unless the details of this functional connection in health and disease are thoroughly understood, the diagnosis and treatment of chewing related disorders will remain at the present state. For example: a We still do not know why chewing in edentulous subjects is less efficient and why the bite forces i ....An understanding of the functional connection between the jaw muscles and various receptor organs in and around the mouth is necessary to elucidate the process of chewing and its underlying rules. Unless the details of this functional connection in health and disease are thoroughly understood, the diagnosis and treatment of chewing related disorders will remain at the present state. For example: a We still do not know why chewing in edentulous subjects is less efficient and why the bite forces in these individuals immediately fall to about 20 % of the teethed value. Do jaw muscles in these subjects get weak because they get less support from the receptor organs around the teeth? a We still do not understand the cause-causes of the temporomandibular dysfunction (a painful disease involving jaw muscles) which forms 18.7 % of total dental patients consulted per week in South Australia. This South Australian study indicated that the current treatments (such as pain killers, night plates, massage) Ocures? only about the half of all patients. We cannot increase the success of the treatment if we do not fully understand the control mechanisms of chewing? It is expected that the results of this study will establish the functional connection between one of the most important receptor organs in the mouth (periodontal mechanoreceptors) to the jaw muscle motoneurons in subjects with healthy teeth and gums and will illustrate the importance of keeping the periodontium healthy for developing strong and smooth masticatory forces. This knowledge can also allow us to treat jaw related disorders by approaches that bring back normal operation of the system. For example, this knowledge may help us design active dentures that replace the missing support.Read moreRead less