Infrared Thermal Imaging: An Innovative Technique To Assess Peripheral Body Temperature.
Funder
National Health and Medical Research Council
Funding Amount
$192,710.00
Summary
Insomnia is a significant health issue, with 10-12% of the general population reporting sleeping difficulties requiring treatment. Pharmacological treatment with hypnotics-sedatives remain the main treatment strategy for most insomnias, despite the adverse side-effects. A better understanding of the physiological triggers for sleep will make it possible to develop more specific treatments for insomnia. Sleep onset is reported to be associated with changes in body temperature. Broadly speaking, s ....Insomnia is a significant health issue, with 10-12% of the general population reporting sleeping difficulties requiring treatment. Pharmacological treatment with hypnotics-sedatives remain the main treatment strategy for most insomnias, despite the adverse side-effects. A better understanding of the physiological triggers for sleep will make it possible to develop more specific treatments for insomnia. Sleep onset is reported to be associated with changes in body temperature. Broadly speaking, sleep onset has been linked with a rapid reduction in core temperature through increased peripheral heat loss. It has been suggested from this that sleep onset insomnia may result from the failure to efficiently lose heat at the periphery and thus, reduce core temperature. To date, the analysis of peripheral temperature physiology has been limited to single temperature thermistors attached to discrete body areas. This technique typically provides very limited information about the dynamic temperature changes. Recently, low cost, high resolution thermal imaging systems have become available, enabling the measurement of real-time changes in peripheral temperature across the whole body simultaneously. This development will help to significantly improve our understanding of the physiological mechanisms involved in both sleep onset and insomnia. The aim of this project then, is to determine whether an impaired capacity to lose heat at the periphery contributes to sleep onset insomnia in both young and older adults. The results of this project will provide insight into whether a reduced capacity to dissipate heat results in an extended sleep onset latency, greatly enhancing our knowledge of the physiology of sleep onset and sleep onset insomnia. In turn, treatments may be developed that directly manipulate the physiological triggers for sleep, minimising the dependence on sedative-hypnotics and the associated adverse effects of these agents.Read moreRead less
The brain regulates body temperature by a series of mechanisms, including the control of how much blood flows to the skin to lose or retain heat. The project aims to locate the brain temperature receptors and brain pathways that do this, using an animal model, the rat. At present they are not known.
I am a neurophysiologist interested in brain regulation of homeostatic and autonomic functions in health and disease. I am endeavouring to discover the brain pathways for these vital functions, and to translate my findings from animal research to humans.
Therapeutic Thermal Regulation In Critical Illness
Funder
National Health and Medical Research Council
Funding Amount
$189,384.00
Summary
Patients who are admitted to intensive care units often develop abnormalities of their body temperature as part of their illness. Common illnesses include infections and injuries to the brain from trauma or strokes. Clinicians are unsure of how to react to these changes in temperature. My research is designed to provide high quality evidence on body temperature and the use of treatments, so that clinicians can improve patient outcomes.
Neural Basis Of The Thermal Instability That Leads To Menopausal Hot Flushes
Funder
National Health and Medical Research Council
Funding Amount
$330,535.00
Summary
Hot flushes and night sweats affect 80-90% of women during the menopause transition. In 20% of women these symptoms are severe. The mechanisms are not well understood, and non-hormonal treatments are urgently needed. We can investigate the basic brain mechanisms in an animal model, the sheep. The findings will elucidate the mechanisms that disrupt normal temperature regulation and thus lead the way to better therapies for this common, and often debilitating, condition. .
TEMPERATURE AS MODIFIER OF MAMMALIAN SKELETAL MUSCLE FUNCTION AND OF MUSCLE RESPONSIVENESS TO PHYSIOLOGICAL FACTORS
Funder
National Health and Medical Research Council
Funding Amount
$256,018.00
Summary
Contracting muscles are a major source of heat production in the body. Heat produced by contracting muscles can cause muscle damage if muscle temperature increases above 44oC. Also, overheating from external sources can cause an increase in muscle temperature in the upper physiological range of temperature (37-44oC) which can so readily happen to humans and animals caught in blistering sun or in closed cars parked in the sun. However, very little is known about what happens to the ability of the ....Contracting muscles are a major source of heat production in the body. Heat produced by contracting muscles can cause muscle damage if muscle temperature increases above 44oC. Also, overheating from external sources can cause an increase in muscle temperature in the upper physiological range of temperature (37-44oC) which can so readily happen to humans and animals caught in blistering sun or in closed cars parked in the sun. However, very little is known about what happens to the ability of the skeletal muscle to contract when the temperature increases in this upper physiological range of temperature. This project seeks to fill in this important gap in our knowledge and increase our understanding about the existence of protective mechanisms in muscle to prevent heat-induced damage to the muscle. Such mechanisms would allow the body to operate very close to the lethal range of temperature and may be mainly responsible for the severe muscle weakness in overheated individuals. Results obtained from the project can have far reaching implications for human physiology in general and muscle and exercise physiology in particular and for developing new strategies in the treatment of collapse from body overheating. The project will also produce new knowledge regarding the mechanism of action of drugs used in the treatment of certain mental disorders but which can trigger, in susceptible individuals, uncontrolled contraction of muscles and overheating.Read moreRead less
Hypothalamic Oxexin-synthesizing Neurons Regulate The Ultradian Basic Rest-Activity Cycle (BRAC); Studies In Transgenic Rats And Mice
Funder
National Health and Medical Research Council
Funding Amount
$588,418.00
Summary
In the hypothalamus region of the brain there is a group of neurons that synthesize a neuropeptide messenger called orexin. In humans, malfunction of orexin neurons results in narcolepsy (abnormal sleepiness) and in disordered metabolism resulting in obesity. Our experiments, conducted in genetically-modified rats and mice, will elucidate the manner in which the orexin neurons integrate our behaviour (eg eating) with our physiological state (eg body and brain temperature, arterial blood pressure ....In the hypothalamus region of the brain there is a group of neurons that synthesize a neuropeptide messenger called orexin. In humans, malfunction of orexin neurons results in narcolepsy (abnormal sleepiness) and in disordered metabolism resulting in obesity. Our experiments, conducted in genetically-modified rats and mice, will elucidate the manner in which the orexin neurons integrate our behaviour (eg eating) with our physiological state (eg body and brain temperature, arterial blood pressure).Read moreRead less