Fast and precise measurements of live single-cell biophysical properties is significant in disease diagnosis, cytopathologic analysis, etc. Existing methods still suffer from unsatisfied measurement accuracy and low efficiency. We propose a computer vision method to track cell dielectrophoretic movements on a microchip, enabling efficient and accurate measurement of biophysical parameters of live single cells, including cell radius, cytoplasm conductivity, and cell-specific membrane capacitance, and in situ extraction of cell texture features. We propose a prediction-iteration method to optimize the cell parameter measurement, achieving high accuracy (less than 0.79% error) and high efficiency (less than 30 s). We further propose a hierarch...
Mobility quantification of single cells and cellular processes in dense cultures is a challenge, bec...
Mobility quantification of single cells and cellular processes in dense cultures is a challenge, bec...
Mobility quantification of single cells and cellular processes in dense cultures is a challenge, bec...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
We introduce a label-free method to rapidly phenotype and classify cells purely based on physical pr...
Mechanical properties of single cells have been shown to relate to cell phenotype and malignancy. Ho...
Cell motility is the brilliant result of cell status and its interaction with close environments. It...
AbstractLive-cell assays are used to study the dynamic functional cellular processes in High-Content...
Abstract In this paper, we review the integration of microfluidic chips and computer vision, which h...
Time-lapse live cell imaging has been increasingly employed by biological and biomedical researchers...
Cell behaviors including adhesion, migration, proliferation, differentiation and apoptosis, etc. dee...
Cells are complex biological units that can sense physicochemical stimuli from their surroundings an...
A computer-based tracing technique has been developed to follow the movement of living cells and kee...
Quantitative cell motility studies are necessary for understanding biophysical processes, developing...
Advances in rare cell capture technology have made possible the interrogation of circulating tumor c...
Mobility quantification of single cells and cellular processes in dense cultures is a challenge, bec...
Mobility quantification of single cells and cellular processes in dense cultures is a challenge, bec...
Mobility quantification of single cells and cellular processes in dense cultures is a challenge, bec...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
We introduce a label-free method to rapidly phenotype and classify cells purely based on physical pr...
Mechanical properties of single cells have been shown to relate to cell phenotype and malignancy. Ho...
Cell motility is the brilliant result of cell status and its interaction with close environments. It...
AbstractLive-cell assays are used to study the dynamic functional cellular processes in High-Content...
Abstract In this paper, we review the integration of microfluidic chips and computer vision, which h...
Time-lapse live cell imaging has been increasingly employed by biological and biomedical researchers...
Cell behaviors including adhesion, migration, proliferation, differentiation and apoptosis, etc. dee...
Cells are complex biological units that can sense physicochemical stimuli from their surroundings an...
A computer-based tracing technique has been developed to follow the movement of living cells and kee...
Quantitative cell motility studies are necessary for understanding biophysical processes, developing...
Advances in rare cell capture technology have made possible the interrogation of circulating tumor c...
Mobility quantification of single cells and cellular processes in dense cultures is a challenge, bec...
Mobility quantification of single cells and cellular processes in dense cultures is a challenge, bec...
Mobility quantification of single cells and cellular processes in dense cultures is a challenge, bec...