Add to ORKGMany questions in developmental biology depend on measuring the position and movement of individual cells within developing embryos. Yet, tools that provide this data are often challenged by high cell density and their accuracy is difficult to measure. Here, we present a three-step procedure to address this problem. Step one is a novel segmentation algorithm based on image derivatives that, in combination with selective post-processing, reliably and automatically segments cell nuclei from images of densely packed tissue. Step two is a quantitative validation using synthetic images to ascertain the efficiency of the algorithm with respect to signal-to-noise ratio and object density. Finally, we propose an original method to generate reliable...
International audienceThe recent availability of complete cell lineages from live imaging data opens...
Determining the locations of nuclei in Zebrafish embryos is crucial for the study of the spatio-temp...
Background: Due to the large amount of data produced by advanced microscopy, automated image analysi...
<div><p>Many questions in developmental biology depend on measuring the position and movement of ind...
This thesis focuses on automated monitoring of human embryonic cells in time-lapse microscopy images...
In vivo study of embryonic morphogenesis tremendously benefits from recent advances in live microsco...
SummaryWe present the Real-time Accurate Cell-shape Extractor (RACE), a high-throughput image analys...
Methods for measuring the properties of individual cells within their native 3D environment will ena...
We describe a technique for segmenting embryo blastomeres while simultaneously determining their 3D ...
This thesis focuses on automatic identification of various components of human embryos in Hoffman Mo...
During embryonic development, cell behaviors that are tightly coordinated both spatially and tempora...
International audienceWe designed a strategy for extracting the shapes of cell membranes andnuclei f...
Time lapse microscopy has emerged as an important modality for studying early human embryo developme...
Abstract We present a method for automated nucleus identification and tracking in time-lapse microsc...
Some fundamental biological processes such as embryonic development have been preserved during evol...
International audienceThe recent availability of complete cell lineages from live imaging data opens...
Determining the locations of nuclei in Zebrafish embryos is crucial for the study of the spatio-temp...
Background: Due to the large amount of data produced by advanced microscopy, automated image analysi...
<div><p>Many questions in developmental biology depend on measuring the position and movement of ind...
This thesis focuses on automated monitoring of human embryonic cells in time-lapse microscopy images...
In vivo study of embryonic morphogenesis tremendously benefits from recent advances in live microsco...
SummaryWe present the Real-time Accurate Cell-shape Extractor (RACE), a high-throughput image analys...
Methods for measuring the properties of individual cells within their native 3D environment will ena...
We describe a technique for segmenting embryo blastomeres while simultaneously determining their 3D ...
This thesis focuses on automatic identification of various components of human embryos in Hoffman Mo...
During embryonic development, cell behaviors that are tightly coordinated both spatially and tempora...
International audienceWe designed a strategy for extracting the shapes of cell membranes andnuclei f...
Time lapse microscopy has emerged as an important modality for studying early human embryo developme...
Abstract We present a method for automated nucleus identification and tracking in time-lapse microsc...
Some fundamental biological processes such as embryonic development have been preserved during evol...
International audienceThe recent availability of complete cell lineages from live imaging data opens...
Determining the locations of nuclei in Zebrafish embryos is crucial for the study of the spatio-temp...
Background: Due to the large amount of data produced by advanced microscopy, automated image analysi...