Correct cell/cell interactions and motion dynamics are fundamental in tissue homeostasis, and defects in these cellular processes cause diseases. Therefore, there is strong interest in identifying factors, including drug candidates that affect cell/cell interactions and motion dynamics. However, existing quantitative tools for systematically interrogating complex motion phenotypes in timelapse datasets are limited. We present Motion Sensing Superpixels (MOSES), a computational framework that measures and characterises biological motion with a unique superpixel ‘mesh’ formulation. Using published datasets, MOSES demonstrates single-cell tracking capability and a more advanced population quantification than Particle Image Velocimetry ...
Mobility quantification of single cells and cellular processes in dense cultures is a challenge, bec...
Cells such as astrocytes and radial glia with many densely ramified, fine processes pose particular ...
Quantitative tracking of particle motion using live-cell imaging is a powerful approach to understan...
In the development of multicellular organisms, tissue development and homeostasis require coordinate...
International audienceMotivation: Motility is a fundamental cellular attribute, which plays a major ...
Cell motility is the brilliant result of cell status and its interaction with close environments. It...
Most important biological processes involve cell motion; breast carcinoma cells metastasiz...
Cell-cell interactions are an observable manifestation of underlying complex biological processes oc...
International audienceCellular motility is a fundamental biological process. Progress in the fields ...
Studying the behaviour of cells using time-lapse microscopic imaging requires automated processing p...
Studying the behaviour of cells using time-lapse microscopic imaging requires automated processing p...
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...
Single-particle tracking (SPT) has advanced our knowledge of molecular and cellular biology since it...
Mobility quantification of single cells and cellular processes in dense cultures is a challenge, bec...
Cells such as astrocytes and radial glia with many densely ramified, fine processes pose particular ...
Quantitative tracking of particle motion using live-cell imaging is a powerful approach to understan...
In the development of multicellular organisms, tissue development and homeostasis require coordinate...
International audienceMotivation: Motility is a fundamental cellular attribute, which plays a major ...
Cell motility is the brilliant result of cell status and its interaction with close environments. It...
Most important biological processes involve cell motion; breast carcinoma cells metastasiz...
Cell-cell interactions are an observable manifestation of underlying complex biological processes oc...
International audienceCellular motility is a fundamental biological process. Progress in the fields ...
Studying the behaviour of cells using time-lapse microscopic imaging requires automated processing p...
Studying the behaviour of cells using time-lapse microscopic imaging requires automated processing p...
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...
Single-particle tracking (SPT) has advanced our knowledge of molecular and cellular biology since it...
Mobility quantification of single cells and cellular processes in dense cultures is a challenge, bec...
Cells such as astrocytes and radial glia with many densely ramified, fine processes pose particular ...
Quantitative tracking of particle motion using live-cell imaging is a powerful approach to understan...