Oblique plane illumination (x′y′) view of a large-scale stitched volume from a 1 mm thick, uncleared mouse brain section. The volume was obtained by stitching multiple tiles along the y-axis. On the left, we have a top view (xy) i.e. a virtual section of the stitched volume at a depth of 100 µm. The arrow points at the y-location of each oblique view frame. The total volume covered is ~ 0.95 mm × 4.75 mm × 0.3 mm (x × y × z)
This thesis describes a novel imaging methodology for visualization and quantitative analysis of the...
Hyper-volume visualization is designed to provide simple and fully explanatory images that give comp...
We have previously demonstrated that the use of a commercially-available immersion-based optical cle...
Virtual depth scan through the stitched volume inside a 1 mm thick mouse brain section. The volume w...
Image quality comparison of original SOPi (top row) and improved SOPi (bottom row). The oblique plan...
This dataset covers Fig. 5 of the following publication: Title: Tilt-invariant scanned oblique plan...
Building and studying 3D representations of anatomical structures, such as the brain, plays an impor...
Multiscopic visualization is an emerging display technology that aims to reproduce three dimensional...
Animated 240 µm thick volume stack (60 slices, 4 µm z-step) showing deep imaging on an eGFP mouse br...
Stack of stitched half mouse-brain corresponding to the ventral side. The planes go from the inside ...
Visualization 1. Geometrically corrected volume reconstruction after application of affine transform...
Stack of stitched half mouse-brain corresponding to the dorsal side. The planes go from the inside o...
Mammalian brains are extremely complex: a mouse brain contains one hundred million neurons. Mapping ...
Fig. 1. Our system is the first to enable neuroscientists to interactively explore petascale volume ...
Optical microscopes allow us to study highly dynamic events from the molecular scale up to the whole...
This thesis describes a novel imaging methodology for visualization and quantitative analysis of the...
Hyper-volume visualization is designed to provide simple and fully explanatory images that give comp...
We have previously demonstrated that the use of a commercially-available immersion-based optical cle...
Virtual depth scan through the stitched volume inside a 1 mm thick mouse brain section. The volume w...
Image quality comparison of original SOPi (top row) and improved SOPi (bottom row). The oblique plan...
This dataset covers Fig. 5 of the following publication: Title: Tilt-invariant scanned oblique plan...
Building and studying 3D representations of anatomical structures, such as the brain, plays an impor...
Multiscopic visualization is an emerging display technology that aims to reproduce three dimensional...
Animated 240 µm thick volume stack (60 slices, 4 µm z-step) showing deep imaging on an eGFP mouse br...
Stack of stitched half mouse-brain corresponding to the ventral side. The planes go from the inside ...
Visualization 1. Geometrically corrected volume reconstruction after application of affine transform...
Stack of stitched half mouse-brain corresponding to the dorsal side. The planes go from the inside o...
Mammalian brains are extremely complex: a mouse brain contains one hundred million neurons. Mapping ...
Fig. 1. Our system is the first to enable neuroscientists to interactively explore petascale volume ...
Optical microscopes allow us to study highly dynamic events from the molecular scale up to the whole...
This thesis describes a novel imaging methodology for visualization and quantitative analysis of the...
Hyper-volume visualization is designed to provide simple and fully explanatory images that give comp...
We have previously demonstrated that the use of a commercially-available immersion-based optical cle...
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