There is evidence that elderly cancer patients are often inappropriately treated because of their age. This is usually because of concerns that aged patients can not eliminate drugs as well as the young and, as a result, could end up being overdosed. Some drugs are removed from the body through the urine and adjusting for decreased kidney function (which often decreases with age) means that adequate doses can be calculated. However, many anti-cancer drugs are removed from the body by being broke ....There is evidence that elderly cancer patients are often inappropriately treated because of their age. This is usually because of concerns that aged patients can not eliminate drugs as well as the young and, as a result, could end up being overdosed. Some drugs are removed from the body through the urine and adjusting for decreased kidney function (which often decreases with age) means that adequate doses can be calculated. However, many anti-cancer drugs are removed from the body by being broken down (or metabolised) in the liver. The rate of this process is very difficult to estimate. Although many studies have shown that liver drug metabolism is decreased with age, it is unclear whether this is due strictly to age itself or some of the conditions which accompany ageing. We aim to study the removal of anti-cancer drugs in patients treated for cancer to see what the effects of ageing are. We will estimate the extent of liver breakdown and examine whether it is a function of age or rather of several factors which are often associated with age such as inflammation, reduced nutritional status and other medical conditions. The optimal outcome of the study will be methods for correctly adjusting the dose of anticancer drugs for maximal benefit to the elderly patient.Read moreRead less
This project will improve our understanding of how painkiller medicines work in very old and frail people which will improve the use of these medicines in pain management. This study will carefully examine pain control with two of the most commonly used pain killer medicines - paracetamol and oxycodone. By understanding all the factors that influence an older persons pain control we will be able to improve the safe and effective use of painkiller medicines in this special group of people.
Validating And Optimising The Analysis Of Magnetic Resonance Physiology Data
Funder
National Health and Medical Research Council
Funding Amount
$91,725.00
Summary
Combined electroencephalography (EEG) and functional magnetic resonance imaging (fMRI) is used to detect the anatomical areas in the brain that show electrical activity. Several centres worldwide use this technique to localise the seizure focus in patients with epilepsy. However, there is a lack of validation of the currently applied techniques. Current analysis methods have been developed and validated for other fMRI paradigms, such as motor tasks. It is not known whether the same principles ar ....Combined electroencephalography (EEG) and functional magnetic resonance imaging (fMRI) is used to detect the anatomical areas in the brain that show electrical activity. Several centres worldwide use this technique to localise the seizure focus in patients with epilepsy. However, there is a lack of validation of the currently applied techniques. Current analysis methods have been developed and validated for other fMRI paradigms, such as motor tasks. It is not known whether the same principles are applicable and optimal for fMRI-EEG data. The proposed project aims at validating and optimising the analysis strategies for fMRI-EEG data.Read moreRead less
Drugs are applied to the skin for the treatment of a wide range of conditions including both local (inflammation, pain, eczema, psoriasis) and systemic (angina, nicotine withdrawl, hormone replacement therapy) therapies. Unwanted skin absorption also occurs following exposure to environmental and occupational chemicals, including those applied deliberately to the skin such as insectisides, sunscreens and cosmetics. This study seeks to examine the relationship between the chemical structure of ag ....Drugs are applied to the skin for the treatment of a wide range of conditions including both local (inflammation, pain, eczema, psoriasis) and systemic (angina, nicotine withdrawl, hormone replacement therapy) therapies. Unwanted skin absorption also occurs following exposure to environmental and occupational chemicals, including those applied deliberately to the skin such as insectisides, sunscreens and cosmetics. This study seeks to examine the relationship between the chemical structure of agents, the types of formulations in which they are applied and their penetration into the various layers of the skin and underlying tissues. We intend to further our research into important areas relating to the ability to predict the likely behaviour of a solute which comes into contact with the skin from the aspect of optimising both topical drug delivery systems and risk assessment procedures. We will also be examining techniques of facilitating drug transport through the skin using (i) the knowledge gained of the mechanisms by which vehicles act on the skin, (ii) the synthesis of ester and amide lipophilic prodrugs and (iii) physical techniques such as iontophoresis, whereby small electrical currents are applied to charged drug species on the outside of the skin.Read moreRead less
In the normal process of hearing, the brain actively selects sounds of interest from competing background sounds. This normal auditory function is indispensible for children and adults to cope in non-optimal listening environments, however the mechanisms by which such performance is achieved are poorly understood. This project will investigate the nerve circuits that enable this to occur and will also investigate how these circuits malfunction in various types of partial deafness. The results wi ....In the normal process of hearing, the brain actively selects sounds of interest from competing background sounds. This normal auditory function is indispensible for children and adults to cope in non-optimal listening environments, however the mechanisms by which such performance is achieved are poorly understood. This project will investigate the nerve circuits that enable this to occur and will also investigate how these circuits malfunction in various types of partial deafness. The results will improve our understanding of how we detect sounds and the impact of hearing pathologies on this process.Read moreRead less