Add to ORKGMany tools are currently available to investigate and visualize soft and hard tissues in animals both in high-resolution and three dimensions. The most popular and traditional method is based on destructive histological techniques. However, these techniques have some specific limitations. In order to avoid those limitations, various non-destructive approaches have surfaced in the last decades. One of those is micro-CT-scanning. In the best conditions, resolution achieved in micro-CT currently approaches that of standard histological protocols. In addition to bone, soft tissues can also be made visible through micro-CT-scanning. However, discriminating between structures of the same tissue and among different tissue types remains a challenge...
Optical microscopy has been used in biomedical studies for more than three centuries, but the limita...
Low inherent contrast in soft tissues has been limiting the use of X-ray absorption micro-computed t...
We have used the non-invasive and non-destructive imaging technique of optical coherence microscopy ...
Many tools are currently available to investigate and visualize soft and hard tissues in animals bot...
BACKGROUND: Comparative, functional, and developmental studies of animal morphology require accurate...
The use of high resolution, three-dimensional visualization has been receiving a growing interest wi...
The gold standard for studying biological tissues at the microscale (i.e. histology) is tissue secti...
Whereas the two-dimensional (2D) visualisation of biological samples is routine, three-dimensional (...
Imaging in three dimensions is necessary for thick tissues and small organisms. This is possible wit...
There are large numbers of ground sections of calcified tissues in museum and anatomy department and...
Background Current mesoscale 3D imaging techniques are limited to transparent or cleared samples or...
The African clawed frog, Xenopus laevis, is one of the most widely used model organisms in biologica...
We describe a versatile optical projection tomography system for rapid three-dimensional imaging of ...
We report on the recently emerging (laser) light-sheet-based fluorescence microscopy field (LSFM). T...
The zebrafish (Danio rerio) is now a widely used model organism in biomedical research. The species ...
Optical microscopy has been used in biomedical studies for more than three centuries, but the limita...
Low inherent contrast in soft tissues has been limiting the use of X-ray absorption micro-computed t...
We have used the non-invasive and non-destructive imaging technique of optical coherence microscopy ...
Many tools are currently available to investigate and visualize soft and hard tissues in animals bot...
BACKGROUND: Comparative, functional, and developmental studies of animal morphology require accurate...
The use of high resolution, three-dimensional visualization has been receiving a growing interest wi...
The gold standard for studying biological tissues at the microscale (i.e. histology) is tissue secti...
Whereas the two-dimensional (2D) visualisation of biological samples is routine, three-dimensional (...
Imaging in three dimensions is necessary for thick tissues and small organisms. This is possible wit...
There are large numbers of ground sections of calcified tissues in museum and anatomy department and...
Background Current mesoscale 3D imaging techniques are limited to transparent or cleared samples or...
The African clawed frog, Xenopus laevis, is one of the most widely used model organisms in biologica...
We describe a versatile optical projection tomography system for rapid three-dimensional imaging of ...
We report on the recently emerging (laser) light-sheet-based fluorescence microscopy field (LSFM). T...
The zebrafish (Danio rerio) is now a widely used model organism in biomedical research. The species ...
Optical microscopy has been used in biomedical studies for more than three centuries, but the limita...
Low inherent contrast in soft tissues has been limiting the use of X-ray absorption micro-computed t...
We have used the non-invasive and non-destructive imaging technique of optical coherence microscopy ...