We present an archetypal digital atlas of the mouse embryo based on microscopic magnetic resonance imaging. The atlas is composed of three modules: (1) images of fixed embryos 6 to 15.5 days postconception (dpc) [Theiler Stages (TS) 8 to 24]; (2) an annotated atlas of the anterior portion of a 13.5 dpc (TS 22) mouse with anatomical structures delineated and linked to explanatory files; and (3) three-dimensional renderings of the entire 13.5 dpc embryo and specific organ systems. The explanatory files include brief descriptions of the structure at each volume element in the image and links to 3D reconstructions, allowing visualization of the shape of the isolated structures. These files can also contain or be linked to other types of informa...
Building and studying 3D representations of anatomical structures, such as the brain, plays an impor...
With the completion of the Human Genome Project, the chemical sequence and location of every gene is...
The embryonic mouse brain undergoes drastic changes in establishing basic anatomical compartments an...
We present an archetypal digital atlas of the mouse embryo based on microscopic magnetic resonance i...
AbstractWe present an archetypal digital atlas of the mouse embryo based on microscopic magnetic res...
This study investigates the potential of microscopic Magnetic Resonance Imaging to obtain informatio...
AbstractThis paper describes a digital, three-dimensional model of the mouse embryo at E9. The model...
Strains of mice, through breeding or the disruption of normal genetic pathways, are widely used to m...
The advent of mammalian gene engineering and genetically modified mouse models has led to renewed in...
<p>Micro-CT generates a 3D data set of mouse embryo morphology that can be digitally sectioned at an...
Although there is growing interest in finding mouse models of human disease, no technique for quickl...
This study aims to provide a high-resolution atlas and use it as an anatomical framework to localize...
When working with mouse brain models it becomes apparent, that anatomically detailed, three dimensio...
This dataset is assciated with the paper "A Spatiotemporal Continuum of Embryonic Mouse Brain Develo...
A new method is described for automatic detection of subtle morphological phenotypes in mouse embryo...
Building and studying 3D representations of anatomical structures, such as the brain, plays an impor...
With the completion of the Human Genome Project, the chemical sequence and location of every gene is...
The embryonic mouse brain undergoes drastic changes in establishing basic anatomical compartments an...
We present an archetypal digital atlas of the mouse embryo based on microscopic magnetic resonance i...
AbstractWe present an archetypal digital atlas of the mouse embryo based on microscopic magnetic res...
This study investigates the potential of microscopic Magnetic Resonance Imaging to obtain informatio...
AbstractThis paper describes a digital, three-dimensional model of the mouse embryo at E9. The model...
Strains of mice, through breeding or the disruption of normal genetic pathways, are widely used to m...
The advent of mammalian gene engineering and genetically modified mouse models has led to renewed in...
<p>Micro-CT generates a 3D data set of mouse embryo morphology that can be digitally sectioned at an...
Although there is growing interest in finding mouse models of human disease, no technique for quickl...
This study aims to provide a high-resolution atlas and use it as an anatomical framework to localize...
When working with mouse brain models it becomes apparent, that anatomically detailed, three dimensio...
This dataset is assciated with the paper "A Spatiotemporal Continuum of Embryonic Mouse Brain Develo...
A new method is described for automatic detection of subtle morphological phenotypes in mouse embryo...
Building and studying 3D representations of anatomical structures, such as the brain, plays an impor...
With the completion of the Human Genome Project, the chemical sequence and location of every gene is...
The embryonic mouse brain undergoes drastic changes in establishing basic anatomical compartments an...