Retinal stem cell culture has become a powerful research tool, but it requires reliable methods to obtain high-quality images of living and fixed cells. This study describes a procedure for using phase contrast microscopy to obtain three-dimensional (3-D) images for the study of living cells by photographing a living cell in a culture dish from bottom to top, as well as a procedure to increase the quality of scanning electron micrographs and laser confocal images. The procedure may also be used to photograph clusters of neural stem cells, and retinal explants with vigorous axonal growth. In the case of scanning electron microscopy and laser confocal images, a Gaussian procedure is applied to the original images. The methodology allows for t...
Stem cell research provides a useful tool for unraveling the molecular mechanisms and shedding light...
Human induced pluripotent stem cell (hiPSC)-derived organoids mimicking tissues and organs in vitro ...
This research explores two applications that both require the ability to dynamically and efficiently...
Within the field of tissue engineering there is an emphasis on studying 3-D live tissue structures. ...
The study of stem cells is one of the most important fields of research in the biomedical field. Com...
This paper describes a general method for visualizing individual cells in intact tissue in three dim...
A label-free microscopy method for assessing the differentiation status of stem cells is presented w...
This project involves development of a system for time-lapse image acquisition of neural stem cells....
AII amacrine cells have been found in all mammalian retinas examined and play an important role for ...
Conventional light microscopy allows the observation of living as well as fixed cells and tissues to...
The size of the synaptic subcomponents falls below the limits of visible light microscopy. Despite n...
In this article, we describe the method that allows fluorescently tagged structures such as axons to...
L'étude des cellules souches est l'un des champs de recherches les plus importants dans le domaine b...
In this article, we describe the method that allows fluorescently tagged structures such as axons to...
The rapid evolution of super-resolution light microscopy has narrowed the gap between light and elec...
Stem cell research provides a useful tool for unraveling the molecular mechanisms and shedding light...
Human induced pluripotent stem cell (hiPSC)-derived organoids mimicking tissues and organs in vitro ...
This research explores two applications that both require the ability to dynamically and efficiently...
Within the field of tissue engineering there is an emphasis on studying 3-D live tissue structures. ...
The study of stem cells is one of the most important fields of research in the biomedical field. Com...
This paper describes a general method for visualizing individual cells in intact tissue in three dim...
A label-free microscopy method for assessing the differentiation status of stem cells is presented w...
This project involves development of a system for time-lapse image acquisition of neural stem cells....
AII amacrine cells have been found in all mammalian retinas examined and play an important role for ...
Conventional light microscopy allows the observation of living as well as fixed cells and tissues to...
The size of the synaptic subcomponents falls below the limits of visible light microscopy. Despite n...
In this article, we describe the method that allows fluorescently tagged structures such as axons to...
L'étude des cellules souches est l'un des champs de recherches les plus importants dans le domaine b...
In this article, we describe the method that allows fluorescently tagged structures such as axons to...
The rapid evolution of super-resolution light microscopy has narrowed the gap between light and elec...
Stem cell research provides a useful tool for unraveling the molecular mechanisms and shedding light...
Human induced pluripotent stem cell (hiPSC)-derived organoids mimicking tissues and organs in vitro ...
This research explores two applications that both require the ability to dynamically and efficiently...