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Artificial Intelligence in Ion Channel Drug Discovery

Application of machine learning and artificial intelligence methods to develop models predictive of drug activity, selectivity, stability and distribution. The project will be condu more...

Supervisor(s): Balle, Thomas (Associate Professor)

Modeling brain dynamics with spatial gradients

A core aim of neuroscience is to understand how the brain, with its staggering complexity of 100 billion neurons, makes sense of the world around it. Large-scale global initiatives more...

Supervisor(s): Fulcher, Ben (Dr)

Algorithmic principles of navigating the brain using nanorobots

Over the past several years, high-throughput neuroscience methods have yielded comprehensive cellular maps of the entire brain. These data have revealed features, like distinctive m more...

Supervisor(s): Fulcher, Ben (Dr)

Development and evaluation of an international, interdisciplinary e-Learning program to support health professionals to translate best evidence care for people with osteoarthritis into practice

This opportunity involves a project to develop and evaluate an e-Learning program to support healthcare professionals with the knowledge and skills to provide best-evidence care for more...

Supervisor(s): Eyles, Jillian (Dr), Hunter, David (Professor)

Using metabolomics and other omics to guide new cancer therapies

This project will investigate cellular status and signaling in novel cancer therapies, especially new irradiation schemes in radiotherapy using metabolomics, transcriptomics and pro more...

Supervisor(s): Kwan, Ann (Dr), McKenzie, David (Professor)

How can we improve the care of people with chronic pain presenting frequently to Emergency Departments (EDs)?

The opportunity exists to join a motivated team of clinical researchers aiming to improve the quality of care provided to people facing the challenge of chronic pain. The Pain Pathw more...

Supervisor(s): Wrigley, Paul (Associate Professor)