This project involves development of a system for time-lapse image acquisition of neural stem cells. The purpose of analyzing time sequences is to find migrational patterns that are characteristic for different cell types. Neural stem/progenitor cells posses the capability to differentiate into three lineages: neuronal, astrocytic, and oligodendrocytic. Preliminary results show that glial progenitors migrate significantly more random, than for example astrocytes, that express a more directed movement. Automated image acquisition constitutes the first part of a migration analysis system, followed by an image segmentation and tracking module. It is crucial for the analysis that images are properly acquired. Translation between subsequent imag...
One of the most surprising aspects of neural development is that cells do not remain in their birthp...
Image object segmentation allows localising the region of interest in the image (ROI) and separating...
We have developed methods for segmentation and track-ing of cells in time-lapse phase-contrast micro...
This project involves development of a system for time-lapse image acquisition of neural stem cells....
This thesis describes a system for automatic in vitro cell migration analysis. Image sequences of ad...
This thesis considers a complete automatic system for in-vitro cell imaging and migration image anal...
This paper describes a system for in vitro cell migration analysis. Adult neural stem/progenitor cel...
In this paper we analyze neural stem/progenitor cells in an time-lapse image sequence. By using info...
Neural stem cell (NSC) cultures have been considered technically challenging for time-lapse analysis...
Neuronal migration is a vital process needed for subsequent assembly and function of neural circuitr...
In order to understand the development of stem-cells into specialized mature cells it is necessary t...
Understanding the mechanisms that control critical biological events of neural cell populations, suc...
The process required to track cellular structures is a key task to quantitatively describe the biolo...
Abstract. Methods to evaluate migration capacity of stem cells and the inhibition by chemicals are i...
Understanding the mechanisms that control critical biological events of neural cell populations, suc...
One of the most surprising aspects of neural development is that cells do not remain in their birthp...
Image object segmentation allows localising the region of interest in the image (ROI) and separating...
We have developed methods for segmentation and track-ing of cells in time-lapse phase-contrast micro...
This project involves development of a system for time-lapse image acquisition of neural stem cells....
This thesis describes a system for automatic in vitro cell migration analysis. Image sequences of ad...
This thesis considers a complete automatic system for in-vitro cell imaging and migration image anal...
This paper describes a system for in vitro cell migration analysis. Adult neural stem/progenitor cel...
In this paper we analyze neural stem/progenitor cells in an time-lapse image sequence. By using info...
Neural stem cell (NSC) cultures have been considered technically challenging for time-lapse analysis...
Neuronal migration is a vital process needed for subsequent assembly and function of neural circuitr...
In order to understand the development of stem-cells into specialized mature cells it is necessary t...
Understanding the mechanisms that control critical biological events of neural cell populations, suc...
The process required to track cellular structures is a key task to quantitatively describe the biolo...
Abstract. Methods to evaluate migration capacity of stem cells and the inhibition by chemicals are i...
Understanding the mechanisms that control critical biological events of neural cell populations, suc...
One of the most surprising aspects of neural development is that cells do not remain in their birthp...
Image object segmentation allows localising the region of interest in the image (ROI) and separating...
We have developed methods for segmentation and track-ing of cells in time-lapse phase-contrast micro...