by rap318 | Sep 20, 2022 | Research Project
Deterministic lateral displacement (DLD) is a robust passive method that uses continuous flow in a microfluidic device for small-scale particle separation, such as beads, droplets, leukocytes, cancer cells, viruses, bacteria, and DNA. The particles separate after...
by rap318 | Sep 20, 2022 | Research Project
Detection and characterization of rare tumor cells in patients’ blood is important for the diagnosis and monitoring of cancer. The traditional way via fluorescent images requires a series of tedious experimental procedures and often impacts the viability of...
by rap318 | Sep 20, 2022 | Research Project
Many deep-learning-based problems depend on a significant amount and high quality of the dataset, while in the “small data” regime, less work and related applications have been established. The computational cost of fluid dynamics simulations limits the scale,...
by rap318 | Sep 20, 2022 | Research Project
We report a microfluidic vessel-on-a-chip platform for recapitulating several key metastatic steps of tumor cells in blood vessels on the same chip, including intravasation, circulating tumor cell (CTC) vascular adhesion, and extravasation. Due to its excellent...
by rap318 | Sep 20, 2022 | Research Project
To build more realistic organ-on-a-chip models and broaden their applications, various methods have been reported on vessel construction for on-chip tissue models. These methods can be generally grouped into two categories. The first approach constructed vessels on...
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