Research team has developed a 3D mass spectrometry imaging (3D MSI) model using schizophrenia mouse brains to map molecular distributions and concentrations, with a focus on understanding their roles in the disease.
Lin, Phone
To develop an advanced diagnostic platform for schizophrenia (SZ) and major depressive disorder (MDD) that combines artificial intelligence (AI) with electroencephalography (EEG) data analysis.
Wen-Chau Wu
Multimodal precision medical imaging
Furen Xiao
Intelligent Medical Device, Brain tumor image
Yuan Luo
Prof. Luo research interests are in volume holographic imaging, high-resolution microscopy and endoscopy, and design and development of spatial–spectral holographic components, deep learning, meta-optics and miniature medical devices.
Yu-chun Lin
Three-dimensional (3-D) Lung-like Tissues Culture System; In vivo Pulmonary Diseases Models; Influence of Mechanical Environment on Corneal Physiology; Medical Device Design
How cells decide their growth modes using biophysical principles derived from Reaction-Diffusion systems. Numerical simulations, Analytical solutions, and microscopic image analysis of live cells.
Han-Ching Wang
Crustacean Immunology, Crustacean Virology, Systems Biology, Multi-omics Analysis
Anna C-C Jang
My lab applies a group of migratory cells named border cells (BCs) as a model to investigate collective cell movement. BCs are derived from anterior follicle epithelia of Drosophila egg chambers, migrate as a cluster to invade through nurse cells and reach the oocyte border in stage 10 of oogenesis, which makes it an elegant model to explore basic mechanisms in collective invasion.
