Protecting Australia And The Region From Emerging And Re-emerging Infectious Diseases.
Funder
National Health and Medical Research Council
Funding Amount
$774,540.00
Summary
The world is facing unprecedented threats from epidemics. In 2014 Ebola showed that issues such as quarantine, personal protective equipment and improved health system capacity are just as critical as drugs and vaccines, yet these are under-researched. Professor MacIntyre is an international expert epidemic control. She will lead a strategic research program to improve control of emerging and re-emerging infections, using her expertise in vaccines, personal protective equipment and biosecurity.
A Case-control Study Of Rotavirus Vaccine Effectiveness Against Gastroenteritis Hospitalisation Of Children In The NT
Funder
National Health and Medical Research Council
Funding Amount
$465,859.00
Summary
Almost 1 out of 5 children in remote Aboriginal communities are hospitalised with diarrhoea caused by rotavirus. This study will evaluate the impact of rotavirus vaccination in preventing these hospitalisations. In addition to making sure that vaccination works and that those at highest risk are receiving the benefits, it will assess the indirect impact against other causes of diarrhoea providing, critical information relevant to the vaccine's broader introduction in developing country settings.
Automated pathogen detection using time-gated luminescence microscopy. A rapid and general means of in-situ pathogen identification would benefit the community by ensuring that appropriate treatments can be applied in the early stages of a disease. Patient prognosis is thereby improved and opportunities for multi-drug resistant organisms to arise are limited. Time-gated luminescence microscopy (TgM) exploits persistent luminescence to overcome autofluorescence, a serious problem in pathogen dete ....Automated pathogen detection using time-gated luminescence microscopy. A rapid and general means of in-situ pathogen identification would benefit the community by ensuring that appropriate treatments can be applied in the early stages of a disease. Patient prognosis is thereby improved and opportunities for multi-drug resistant organisms to arise are limited. Time-gated luminescence microscopy (TgM) exploits persistent luminescence to overcome autofluorescence, a serious problem in pathogen detection. Drug-resistant 'Golden Staph' (MRSA) will be used as the model organism to evaluate TgM efficacy. Ultimately however, TgM will be applied for the detection of tuberculosis, a highly contagious disease affecting the respiratory system of more than one-third of the world's population.Read moreRead less