I am a clinical scientist translating basic science findings into clinical science questions and answers that impart better understanding and management of pain and painful disease.
I am a molecular physiologist investigating the structure and function of the inhibitory neurotransmitter glycine receptor (GlyR) and GABA type- A receptor (GABAAR) chloride channels. We are interested in understanding how these receptors open and close
I am a neuroscientist- neuropharmacologist determining molecular, cellular, synaptic and behavioural mechanisms of opioid addiction and persistent pain states.
Speech and chewing are accomplished automatically by the jaw muscles which have both the power to chew meat and even bone, and the precision to make extremely fine adjustments to the shape of the mouth that enable speech. The brain needs constant inputs from sensory receptors in and around the mouth to control these muscles. We will investigate how these sensory mechanisms automatically fine-tune the activity of the jaw muscles and the mechanisms that keep the jaw in its normal position when the ....Speech and chewing are accomplished automatically by the jaw muscles which have both the power to chew meat and even bone, and the precision to make extremely fine adjustments to the shape of the mouth that enable speech. The brain needs constant inputs from sensory receptors in and around the mouth to control these muscles. We will investigate how these sensory mechanisms automatically fine-tune the activity of the jaw muscles and the mechanisms that keep the jaw in its normal position when the subject is sitting quietly, or when the head is moving up and down during running. This normal rest position of the jaw is a vital point of reference for dentists who are making false teeth and for surgeons who are restoring damaged faces, but it is not known what mechanisms are responsible for it. Anyone who has experienced a sore tooth or sore jaw muscles will know that pain adversely affects normal chewing. A common symptom is limitation of jaw movements. We will determine how pain affects the control of jaw muscles. This is important for people with chronic facial pain from arthritis of the jaw joint or from grinding their teeth while they are asleep. Even if it is not possible to eliminate their pain, we hope to suggest approaches which will alleviate its effects. Another part of our study involves a computer model of the chewing system. Computer models enable scientists to examine the effect of various interventions such as surgery or orthodontics on a model before these are tried on humans. It is also possible to use such a virtual patient to answer important functional questions that cannot be examined in humans because the methods are unavailable, or because the procedures would be ethically unacceptable. The current version of the computer model is quite sophisticated anatomically, but lacks important information on the control systems that activate the muscles. We will collaborate with the developers of the model by providing this information.Read moreRead less
Neurochemical And Metabolomic Studies Of The Cortical GABAergic System
Funder
National Health and Medical Research Council
Funding Amount
$282,559.00
Summary
This work will use targeted neuropharmacology, systems analysis and multivariate statistics to provide a unique perspective on detailed aspects of the organization and function of the GABAergic system in the brain, as well as the mode of action of the drug of abuse GHB. This will have broad benefits for a wide range of disorders, including sleep disorders, pain and epilepsy as well as providing clearer targets for drug development.
Identification Of Novel Therapeutic Binding Sites On Glycine Receptors By High Throughput Screening
Funder
National Health and Medical Research Council
Funding Amount
$542,017.00
Summary
Glycine receptors mediate inhibitory neurotransmission in the nervous system. They provide fresh therapeutic targets for chronic inflammatory pain and muscle spasticity. Here we identify 5 compounds that may be appropriate as leads for discovering novel therapies for these disorders. We will use automated high throughput screening methods to discover how these drugs interact with the receptor. This will narrow down the search for the next generation of analgesic and muscle relaxant drugs.
Changes In Motor Control And Kinaesthetic Sensations After Eccentric Exercise.
Funder
National Health and Medical Research Council
Funding Amount
$287,250.00
Summary
It is a well-known observation that after a period of intense exercise we are unsteady on our feet and are clumsy when attempting to make precision movements. Such impressions are particularly marked after eccentric exercise, during which the contracting muscles are forcibly lengthened. Activities such as walking downhill, skiing and horse riding involve eccentric exercise. The debilitating consequences of this kind of exercise are attributed, not just to the post-exercise effects of fatigue, bu ....It is a well-known observation that after a period of intense exercise we are unsteady on our feet and are clumsy when attempting to make precision movements. Such impressions are particularly marked after eccentric exercise, during which the contracting muscles are forcibly lengthened. Activities such as walking downhill, skiing and horse riding involve eccentric exercise. The debilitating consequences of this kind of exercise are attributed, not just to the post-exercise effects of fatigue, but to loss of muscle force from damage to fibres. Eccentric exercise also leads to longer term effects. The breakdown of the damaged tissue leads to sensations of stiffness and soreness the next day. This application proposes experiments aimed at studying a number of effects of eccentric exercise on motor control, and establishing the muscle, spinal and brain levels at which they occur. Three studies are planned. In the first, the question will be explored whether we are less able to use the motor areas of our brains to execute voluntary contractions after exercise. So fatigue is not just a matter of exhausted muscles but perhaps also exhausted brains. We will use brain and spinal cord stimulation to explore this point. Then we plan to listen to single motor units, the basic elements of muscle control, to try to understand the mechanism by which the brain minimises the debilitating effects of fatigue. Finally we want to examine subjects' ability to locate their limbs in space as a means of providing a basis for the clumsiness we experience after intense exercise. These are all important issues relevant to clinical medicine and rehabilitation as well as sports science and exercise.Read moreRead less