Use Of Molecular Resistance Assays To Provide Alterative Oral Treatment Strategies For Gonorrhoea In Indigenous And Other High-risk Populations; A Randomised Cluster Trial
Funder
National Health and Medical Research Council
Funding Amount
$828,671.00
Summary
Gonorrhoea has now developed resistance to almost all antibiotics that have been used to treat it. In this study, we will investigate a new treatment approach that selects antibiotics on a patient-by-patient basis. We will use new molecular assays to first test if a gonorrhoea strain infecting a patient is susceptible to an antibiotic, and will then treat on the basis of this result. By doing so, we will optimize our use of antibiotics and improve treatment strategies for gonorrhea.
Vancomycin is the antibiotic we rely on for the treatment of major infections due to bacteria that are resistant to other antibiotics (MRSA). Vancomycin is monitored in each patient to individualise the dose. This is done to improve treatment efficacy, reduce adverse effects and to prevent antibiotic resistance. This project will introduce a vancomycin guideline and train hospital staff to use vancomycin safely, effectively and to minimise the development of resistance.
Identifying Target Genes For Novel Anti-epileptic Therapies In The Mouse
Funder
National Health and Medical Research Council
Funding Amount
$469,802.00
Summary
Epilepsy is a disease which affects 2-4% of the population. There are a wide range of drugs available to treat the condition but there is consistently 30-40% of patients who do not respond well to any of these drugs and who continue to have seizures. The reason that there are no drugs available for these people is that most of the drugs available have been designed along the same principles. A new set of principles is needed to develop new drugs which will be able to treat those people not respo ....Epilepsy is a disease which affects 2-4% of the population. There are a wide range of drugs available to treat the condition but there is consistently 30-40% of patients who do not respond well to any of these drugs and who continue to have seizures. The reason that there are no drugs available for these people is that most of the drugs available have been designed along the same principles. A new set of principles is needed to develop new drugs which will be able to treat those people not responding to current therapy. This project is designed to identify new biologic pathways which may be interrupted with drugs to prevent seizures in people with epilepsy. This project uses a procedure to induce mutations into genes in mice and then screens for mice which do not seize when challenged with a drug which generates seizures in mice. Genetic studies will identify the mutated genes and these will be used as potential targets for new therapies or will identify new biological pathway which should expand the use of future anti-epileptic drugs.Read moreRead less