Deep tissue imaging is increasingly used for non-destructive interrogation of intact organs and small model organisms. An intuitive approach to increase the imaging depth by almost a factor of 2 is to record a sample from two sides and fuse both image stacks. However, imperfect three-dimensional alignment of both stacks presents a computational challenge. We have developed a FIJI plugin, called BiDiFuse, which merges bi-directionally recorded image stacks via 3D rigid transformations. The method is broadly applicable, considering it is compatible with all optical sectioning microscopes and it does not rely on fiducial markers for image registration
Fluorescent observation of cells generally suffers from the limited axial resolution due to the elon...
We developed a compact plane illumination plugin (PIP) device which enabled plane illumination and l...
Confocal Microscopy is valuable for its ability to image thick sections of intact tissue. A compelli...
Deep tissue imaging is increasingly used for non-destructive interrogation of intact organs and smal...
Summary: Deep tissue imaging is increasingly used for non-destructive interrogation of intact organs...
The increasing interest of animal and plant research communities for biomedical 3D imaging devices r...
Some of the novel fluorescence microscopy methods (SPIM- Single Plane Illumination Microscope [1]) p...
Much insight into metabolic interactions, tissue growth, and tissue organization can be gained by an...
pre-printWe describe an efficient, robust, automated method for image alignment and merging of trans...
Motivation: Modern anatomical and developmental studies often require high-resolution imaging of lar...
Fluorescence microscopy has emerged as a pivotal platform for imaging in the life sciences. In recen...
Fluorescence microscopy has emerged as a pivotal platform for imaging in the life sciences. In recen...
In vitro three-dimensional (3D) culturing is considered essential in many biological fields. However...
In a larger effort, we are studying methods to improve the specificity of the diagnosis of breast ca...
International audienceMOTIVATION: Multi-view microscopy techniques such as Light-Sheet Fluorescence ...
Fluorescent observation of cells generally suffers from the limited axial resolution due to the elon...
We developed a compact plane illumination plugin (PIP) device which enabled plane illumination and l...
Confocal Microscopy is valuable for its ability to image thick sections of intact tissue. A compelli...
Deep tissue imaging is increasingly used for non-destructive interrogation of intact organs and smal...
Summary: Deep tissue imaging is increasingly used for non-destructive interrogation of intact organs...
The increasing interest of animal and plant research communities for biomedical 3D imaging devices r...
Some of the novel fluorescence microscopy methods (SPIM- Single Plane Illumination Microscope [1]) p...
Much insight into metabolic interactions, tissue growth, and tissue organization can be gained by an...
pre-printWe describe an efficient, robust, automated method for image alignment and merging of trans...
Motivation: Modern anatomical and developmental studies often require high-resolution imaging of lar...
Fluorescence microscopy has emerged as a pivotal platform for imaging in the life sciences. In recen...
Fluorescence microscopy has emerged as a pivotal platform for imaging in the life sciences. In recen...
In vitro three-dimensional (3D) culturing is considered essential in many biological fields. However...
In a larger effort, we are studying methods to improve the specificity of the diagnosis of breast ca...
International audienceMOTIVATION: Multi-view microscopy techniques such as Light-Sheet Fluorescence ...
Fluorescent observation of cells generally suffers from the limited axial resolution due to the elon...
We developed a compact plane illumination plugin (PIP) device which enabled plane illumination and l...
Confocal Microscopy is valuable for its ability to image thick sections of intact tissue. A compelli...