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Conserved Regulatory Genes in Neurodevelopment

The present project aims to utilize the promising combination of 3D organoid technology and CRISPR genome editing, which will allow us to examine the roles of several conserved gene more...

Supervisor(s): Neely, Greg (Professor)

TARGETING THE BRAIN VASCULATURE AS A TREATMENT FOR CEREBRAL TYPE I INTERFERONOPATHIES

Abnormal blood vessels are feature of cerebral type I interferonopathies. Discover how the endothelial cells that line the brain’s blood vessels contribute to disease in patie more...

Supervisor(s): Hofer, Markus (Dr)

THE PATHOGENIC AND PROTECTIVE EFFECTS OF MICROGLIA IN CEREBRAL CYTOKINOPATHIES

Microglia are the primary immune cells of the brain and have the potential to both protect and contribute to neurological disease. Explore the molecular mechanisms that microglia us more...

Supervisor(s): Hofer, Markus (Dr)

HOW DIFFERENT CELL TYPES OF THE BRAIN CONTRIBUTE TO CEREBRAL CYTOKINOPATHIES

The brain consists of a large number of different cell types, including neurons, astrocytes, oligodendrocytes, microglia and endothelial cells. Discover how these different cell typ more...

Supervisor(s): Hofer, Markus (Dr)

EFFECTS OF TYPE I INTERFERONS IN CHRONIC VIRAL INFECTIONS

When type I interferon signalling is impaired, infection with lymphocytic choriomeningitis virus results in chronic infection and dysfunctional CD8+ T cell function. Investigate how more...

Supervisor(s): Hofer, Markus (Dr)

Cardio-Oncology

This PhD program involves multi-modality cardiovascular imaging techniques, such as echocardiography (TTE), and Cardiac MRI in humans (including clinical trials) and animal models. more...

Supervisor(s): Negishi, Kazuaki (Professor)

Advanced Application of contrast-enhanced echocardiography

This PhD program involves multi-modality cardiovascular imaging techniques, such as echocardiography (TTE), and Cardiac MRI in humans (including clinical trials) and animal models. more...

Supervisor(s): Negishi, Kazuaki (Professor)

Develop point-of-care microfluidic technologies for cardiovascular and cerebrovascular diseases

We are developing a clinically useful, rapid and high throughput profiling microdevices for thrombosis and coagulation. It will be extremely useful for patients with diabetes, obesi more...

Supervisor(s): Ju, Lining (Arnold) (Dr)

Develop single-molecule and super-resolution microscopy imaging technologies in the cardiovascular disease

This project will focus on development, improvement, and application of single-molecule tracking and super-resolution imaging, such as TIRF, HiLo, PALM, STORM, Lattice Light-Sheet M more...

Supervisor(s): Ju, Lining (Arnold) (Dr)

Develop single-cell mechanobiological methods for discovering molecular mechanisms of cardiovascular and neuronal mechanical force sensing

We are developing cutting-edge technologies for the following biomedical application: 1) define the mechanosensing functions of key protein players in the cardiovascular system such more...

Supervisor(s): Ju, Lining (Arnold) (Dr)