Experimental And Computational Study On Biomechanical Behavior Of Osteocytes
Funder
National Health and Medical Research Council
Funding Amount
$86,073.00
Summary
The experimental and computational methods (finite element method) are used to predict biomechanical behaviors of osteocytes under normal physiological loading, overloading or under-loading/disuse. This quantitative research will not only help to elucidate the mechanisms of mechanotransduction in osteocytes, it will provide important information that is also relevant to mechanobiology in general.
Consequences Of Waveform Composition For Epithelial Integrity And Homogeneous Ventilation During HFOV
Funder
National Health and Medical Research Council
Funding Amount
$409,483.00
Summary
High-frequency oscillation (HFO) delivers up to 900 breaths/minute to newborn babies. In theory, the tiny HFO breaths decrease ventilator induced lung injury whilst efficiently delivering oxygen to and removing waste gas from the blood. However, HFO may damage the large airways due to the high gas flows. We will use mathematical models and studies in preterm lambs to assess how to optimise distribution of fresh gas to the lung while minimising any airway damage. Our findings will help doctors tr ....High-frequency oscillation (HFO) delivers up to 900 breaths/minute to newborn babies. In theory, the tiny HFO breaths decrease ventilator induced lung injury whilst efficiently delivering oxygen to and removing waste gas from the blood. However, HFO may damage the large airways due to the high gas flows. We will use mathematical models and studies in preterm lambs to assess how to optimise distribution of fresh gas to the lung while minimising any airway damage. Our findings will help doctors treat preterm babies with lung disease.Read moreRead less
Prostaglandin G/H Synthase-2 (PGHS-2) Is A Key Regulator Of Skeletal Adaptation And Remodelling
Funder
National Health and Medical Research Council
Funding Amount
$301,018.00
Summary
Knowledge of the biology underlying bone formation is important for developing novel approaches to stimulate new bone formation in skeletal diseases associated with ageing or disability, or for maintenance of new bone around orthopaedic or dental implants. The discovery that a prostaglandin enzyme (PGHS-2) is a key factor in activity-related bone formation and normal bone turnover, as well as a pharmacological target for reducing inflammation, has considerable clinical significance. Specific inh ....Knowledge of the biology underlying bone formation is important for developing novel approaches to stimulate new bone formation in skeletal diseases associated with ageing or disability, or for maintenance of new bone around orthopaedic or dental implants. The discovery that a prostaglandin enzyme (PGHS-2) is a key factor in activity-related bone formation and normal bone turnover, as well as a pharmacological target for reducing inflammation, has considerable clinical significance. Specific inhibition of PGHS-2 by recent anti-inflammatory drugs avoids formation of gastric ulcers, but their influence on normal bone remodelling and fracture repair is not known and must be investigated. Many such inhibitors are in advanced clinical trials, but their effect on bone metabolism has not been published. This project is important because it employs novel experimental models to advance our knowledge of prostaglandin biology in skeletal adaptation, and elucidates important clinical consequences for specific inhibition of PGHS-2 in the skeleton. This project will investigate the regulation of prostaglandin production by PGHS enzymes following mechanical loading in vivo. It will use cell, molecular and histochemical techniques to determine if the genes that regulate the enzymes are influenced by mechanical stimuli, and if they are dependent on other molecules, associated with structural proteins (stress fibres) within the cell. It will investigate if inhibition of PGHS-2 by antiinflammatory drugs or stress-fibre inhibitors, depresses normal bone turnover and healing responses. The outcome of these experiments could indicate new approaches to stimulate bone formation, preserve bone mass, or minimise adverse skeletal effects of anti-inflammatory treatments related to orthopaedic or dental procedures.Read moreRead less
A Clinical And Experimental Study Of The Biomechanical Factors Associated With Tooth Destruction
Funder
National Health and Medical Research Council
Funding Amount
$241,527.00
Summary
This project investigates the influence of biting force on the development of non-carious and carious defects of teeth. Strain gauges will be cemented to the neck region of extracted teeth and teeth in the mouth, forces applied to the biting surfaces of the teeth, and the stress which results will be measured by the strain gauge. A profiling technique and high-power microscopy will be used to determine the amount of tooth structure lost as a result of applying the forces in the presence of acid. ....This project investigates the influence of biting force on the development of non-carious and carious defects of teeth. Strain gauges will be cemented to the neck region of extracted teeth and teeth in the mouth, forces applied to the biting surfaces of the teeth, and the stress which results will be measured by the strain gauge. A profiling technique and high-power microscopy will be used to determine the amount of tooth structure lost as a result of applying the forces in the presence of acid. In addition, a computer model will be generated, to determine whether it can be used to predict the stresses. In a clinical study, patients with and without non-carious defects will be followed for three years in order to assess the morphological changes and measure the volume loss of tooth structure which occurs.Read moreRead less
How well people perform in everyday situations is often determined by memory function. When required to perform under stress memory performance is often affected. The effect of a psychological stress test on memory function in healthy volunteers and the ability of a dietary supplement, tyrosine, to prevent the effects will be studied. The data may suggest that depletion amino acids is responsible for the decrements in performance that are evident after an acute stressor.
I have discovered particular factors produced by our white blood cells have the ability to shut down or boost protein production in the gut, pancreas and lung. My vision is to harness these to devise new strategies for treatments for infectious and non-infectious diseases (inflammatory bowel disease, diabetes) that have a high burden on our healthcare system.
Central Control Of Stress-induced Changes In Immune Function.
Funder
National Health and Medical Research Council
Funding Amount
$411,724.00
Summary
LONG-TERM STRESS CAN ALTER OUR BRAIN'S ATTEMPTS TO FIGHT INFECTION Long-term stress is often blamed for causing illness but precisely how this occurs is now only beginning to be realised. It is especially disturbing that long-term stress can increase one's susceptibility to infections. Stress can alter the way our brain can help deal with assaults by bacteria and viruses. Normally, at the start of an infection, we release a hormone called cortisol from our adrenal glands. A low level of cortisol ....LONG-TERM STRESS CAN ALTER OUR BRAIN'S ATTEMPTS TO FIGHT INFECTION Long-term stress is often blamed for causing illness but precisely how this occurs is now only beginning to be realised. It is especially disturbing that long-term stress can increase one's susceptibility to infections. Stress can alter the way our brain can help deal with assaults by bacteria and viruses. Normally, at the start of an infection, we release a hormone called cortisol from our adrenal glands. A low level of cortisol in our body is beneficial because it can prevent the infection from taking hold in our body and spreading. However if we are chronically stressed our brains tell the adrenal glands to secrete excessive amounts of cortisol over long periods of time and this imbalance can actually hinder the ability of one's immune system to fight an infection. The unfortunate consequence is that the infection is more likely to win the battle and spread to cause further havoc. The present study will identify which areas of the brain are important in driving the secretion of cortisol during infection and how long-term stress can influence those areas. Because we might be exposed to long-term psychological stress that is repeated regularly or irregularly we will determine which pattern of stress has the greatest effect. An investigation into how the brain operates during long-term stress and infection will help us develop ways to prevent stress from disrupting our immune systems.Read moreRead less
Chronic or extreme reactions to stress can lead to pathological conditions such as long term anxiety states, depression and panic disorders. Stress related disease also contributes to other major health problems such as heart disease and disorders of the immune system. These disease states include some of the major medical problems of our times. This proposal is to define genes which may be involved in stress responsiveness, to further understand and treat stress related disease.