Reprogramming is the conversion of any cell into induced pluripotent stem cells (iPSC). iPSC carry immense clinical potential as they are pluripotent and can hence form any cell of the human body, however, they can also form tumours. We have identified a cell type during reprogramming which is pluripotent but cannot form tumours. It is the aim of this project to determine the molecular differences between iPSC and this cell type in order to facilitate the delivery of cell replacement therapies.
Integrated System Wide Characterization Of Microbiota And Host Factors Influencing Intestinal Colonization Resistance To The Healthcare Pathogen Clostridium Difficile
Funder
National Health and Medical Research Council
Funding Amount
$359,999.00
Summary
Naturally occurring bacteria play an important role in determining patient disease susceptibility, disease progression and ultimately, disease outcome. Over 1000 species of bacteria, contributing 10 times as many cells as found within a single individual. This project seeks to understand these communities, how they confer resistance to infection and how they can be manipulated, both naturally and through controlled introduction of bacteria to prevent disease or improve disease outcome.
Developing And Evaluating A Multimodal Antibiotic Allergy Strategy To Improve Antimicrobial Stewardship In High-risk Antibiotic Usage Populations
Funder
National Health and Medical Research Council
Funding Amount
$303,014.00
Summary
Antibiotic allergies lead to the use of inferior antibiotics and generation of “superbugs”. Antibiotic allergy testing removes up to 90% of allergies, although remains unavailable to many and unreliable in some severe antibiotic reactions. We aim to validate antibiotic allergy bedside tools and programs, and develop laboratory tests that can diagnose and prevent severe antibiotic allergies, to improve appropriate antibiotic prescribing and patient outcomes.
Iron-Infection Interactions: Studies Of The Link Between Iron Metabolism And Infectious Diseases Of Global Significance
Funder
National Health and Medical Research Council
Funding Amount
$383,244.00
Summary
Anaemia, malaria and HIV affect millions of people worldwide, but interactions between these conditions are poorly understood. A haematologist with training in public health, my interest is in finding ways to control the enormous global burden of anaemia. My research will focus on how iron status influences infection with malaria and HIV. It will provide evidence for anaemia control guidelines and help improve global policies for controlling iron deficiency where these infections coexist.
Evolutionary Genomics Approaches For Studying Acquisition Of Drug Resistance In Tumours
Funder
National Health and Medical Research Council
Funding Amount
$313,390.00
Summary
Chemotherapy often fails because some of the cells in tumour evolve resistance to the drugs the patient is given, causing relapse. We study how a tumour’s unstable genome and high rate of mutation drives its evolution by observing tumour cells in the laboratory as they evolve resistance to drugs and the genetic differences between resistant and sensitive cells. This work will help develop therapeutic strategies to prevent tumours from evolving resistance to chemotherapy.