An automated technique for the identification, tracking and analysis of biological cells is presented. It is based on the use of nanoparticles, enclosed within intra-cellular vesicles, to produce clusters of discrete, point-like fluorescent, light sources within the cells. Computational analysis of these light ensembles in successive time frames of a movie sequence, using k-means clustering and particle tracking algorithms, provides robust and automated discrimination of live cells and their motion and a quantitative measure of their proliferation. This approach is a cytometric version of the moving light display technique which is widely used for analyzing the biological motion of humans and animals. We use the endocytosis of CdTe/ZnS, cor...
In the last years, significant advances in microscopy techniques and the introduction of a novel tec...
The emergence of labeling strategies and live cell imaging methods enables the imaging of chromatin ...
International audienceResolving the movement of individual molecules in living cells by single parti...
An automated technique for the identification, tracking and analysis of biological cells is presente...
<div><p>An automated technique for the identification, tracking and analysis of biological cells is ...
Automated tracking of cells across timelapse microscopy image sequences typically employs complex se...
UNLABELLED: Cellular microvesicles and nanovesicles (exosomes) are involved in many disease processe...
AbstractCellular microvesicles and nanovesicles (exosomes) are involved in many disease processes an...
Single cell encoding with quantum dots as live cell optical tracers for deriving proliferation param...
For phenotypic behavior to be understood in the context of cell lineage and local environment, prope...
Time-lapse live cell imaging has been increasingly employed by biological and biomedical researchers...
AbstractLive-cell assays are used to study the dynamic functional cellular processes in High-Content...
We describe a new automatic technique for the study of intracellular mobility. It is based on the vi...
Darkfield and confocal laser scanning microscopy both allow for a simultaneous observation of live c...
Analysing cell motility is an important process in medical and biomedical studies since most active ...
In the last years, significant advances in microscopy techniques and the introduction of a novel tec...
The emergence of labeling strategies and live cell imaging methods enables the imaging of chromatin ...
International audienceResolving the movement of individual molecules in living cells by single parti...
An automated technique for the identification, tracking and analysis of biological cells is presente...
<div><p>An automated technique for the identification, tracking and analysis of biological cells is ...
Automated tracking of cells across timelapse microscopy image sequences typically employs complex se...
UNLABELLED: Cellular microvesicles and nanovesicles (exosomes) are involved in many disease processe...
AbstractCellular microvesicles and nanovesicles (exosomes) are involved in many disease processes an...
Single cell encoding with quantum dots as live cell optical tracers for deriving proliferation param...
For phenotypic behavior to be understood in the context of cell lineage and local environment, prope...
Time-lapse live cell imaging has been increasingly employed by biological and biomedical researchers...
AbstractLive-cell assays are used to study the dynamic functional cellular processes in High-Content...
We describe a new automatic technique for the study of intracellular mobility. It is based on the vi...
Darkfield and confocal laser scanning microscopy both allow for a simultaneous observation of live c...
Analysing cell motility is an important process in medical and biomedical studies since most active ...
In the last years, significant advances in microscopy techniques and the introduction of a novel tec...
The emergence of labeling strategies and live cell imaging methods enables the imaging of chromatin ...
International audienceResolving the movement of individual molecules in living cells by single parti...
Add to ORKG