A major challenge in cellular analysis is the phenotypic characterization of large cell populations within a short period of time. Among various parameters for cell characterization, the cell dry mass is often used to describe cell size but is difficult to be measured directly with traditional techniques. Here, we propose an interferometric approach based on line-focused beam illumination for high-content precision dry mass measurements of adherent cells in a non-invasive fashion—we call it quantitative phase cytometry (QPC). Besides dry mass, abundant cellular morphological features such as projected area, sphericity, and phase skewness can be readily extracted from the QPC interferometric data. To validate the utility of our technique, we...
Direct measurement of cell mass and growth can be difficult with traditional techniques, leaving una...
This dataset contains microscopic images of multiple cell lines captured by multiple microcopic with...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
International audienceWe present here a label-free development based on preexisting Quantitative Pha...
Holographic cytometry (HC) has been developed as an ultra-high throughput implementation of quantita...
Measuring cellular level phenomena is challenging because of the transparent nature of cells and tis...
Thesis: S.M., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2017.Cata...
Cell mass is an important biophysical property that provides a crucial link between external physica...
International audienceThe quantitative phase imaging methods have several advantages when it comes t...
Quantitative measurement of single cells can provide in-depth information about cell morphology and ...
June 18, 2008; doi:10.1152/ajpcell.00121.2008.—Using novel interfero-metric quantitative phase micro...
This dataset contains microscopic images of multiple cell lines captured by quantitative phase micro...
Single ion bombardment of biological cells using an ion microprobe is a promising technique. However...
International audienceThis interdisciplinary work focuses on the interest of a new proximal algorith...
Blood smear analysis has remained a crucial diagnostic tool for pathologists despite the advent of ...
Direct measurement of cell mass and growth can be difficult with traditional techniques, leaving una...
This dataset contains microscopic images of multiple cell lines captured by multiple microcopic with...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
International audienceWe present here a label-free development based on preexisting Quantitative Pha...
Holographic cytometry (HC) has been developed as an ultra-high throughput implementation of quantita...
Measuring cellular level phenomena is challenging because of the transparent nature of cells and tis...
Thesis: S.M., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2017.Cata...
Cell mass is an important biophysical property that provides a crucial link between external physica...
International audienceThe quantitative phase imaging methods have several advantages when it comes t...
Quantitative measurement of single cells can provide in-depth information about cell morphology and ...
June 18, 2008; doi:10.1152/ajpcell.00121.2008.—Using novel interfero-metric quantitative phase micro...
This dataset contains microscopic images of multiple cell lines captured by quantitative phase micro...
Single ion bombardment of biological cells using an ion microprobe is a promising technique. However...
International audienceThis interdisciplinary work focuses on the interest of a new proximal algorith...
Blood smear analysis has remained a crucial diagnostic tool for pathologists despite the advent of ...
Direct measurement of cell mass and growth can be difficult with traditional techniques, leaving una...
This dataset contains microscopic images of multiple cell lines captured by multiple microcopic with...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...