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Studies in the biophysics of dentine and dental caries

Although dental caries remains the world's most common infectious disease, current concepts of caries pathogenesis are based on microscopic methods now many decades old. Treatment w more...

Supervisor(s): Zoellner, Hans (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)

Identifying the principles of cell growth and cell mass regulation. Development of biomedical applications based on real-time cell mass detection.

Identifying the principles of cell growth and cell mass regulation. Development of applications based on real-time cell mass detection. Development of instrumentation, sensors and m more...

Supervisor(s): Martinez Martin, David (Dr)

Control of immune cell activity via a redox switch in integrin

Our immune system protects us from invasion of pathogens and toxic materials. Immune cells such as monocytes and neutrophils circulate in the blood to monitor foreign materials and more...

Supervisor(s): Chiu, Joyce (Dr)

Developing new antibiotics by targeting specific molecular interactions in bacteria

This project focuses on developing a new class of antibiotics by targeting specific molecular interactions in bacteria using a multi-disciplinary fragment-based drug design approach more...

Supervisor(s): Kwan, Ann (Dr)

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)