We present a novel approach for deconvolution of 3D image stacks of cortical tissue taken by mosaic/optical-sectioning technology, using a transmitted light brightfield microscope. Mosaic/optical-sectioning offers the possibility of imaging large volumes (e.g. from cortical sections) on a millimetre scale at sub-micrometre resolution. However, a blurred contribution from out-of-focus light results in an image quality that usually prohibits 3D quantitative analysis. Such quantitative analysis is only possible after deblurring by deconvolution. The resulting image quality is strongly dependent on how accurate the point spread function used for deconvolution resembles the properties of the imaging system. Since direct measurement of the true p...
In transmitted optical microscopy, absorption structure and phase structure of the specimen determin...
Multiphoton microscopy is the current method of choice for in vivo deep-tissue imaging. The long las...
Fiber photometry is used to monitor signals from fluorescent indicators in genetically-defined neura...
We present a novel approach for deconvolution of 3D image stacks of cortical tissue taken by mosaic/...
A fundamental challenge in neuroscience is the determination of the three-dimensional (3D) morpholog...
A fundamental challenge in neuroscience is the determination of the three-dimensional (3D) morpholog...
Optical sectioning of biological tissues has become the method of choice for three-dimensional histo...
A fundamental challenge in neuroscience is the determination of the three−dimensional 3D morphology ...
Optical sectioning of biological tissues has become the method of choice for three-dimensional histo...
Cells and tissues have complex 3-D surface topologies intimately related to their extracellular envi...
Abstract: The objective of this study is to investigate the use of deconvolution for improving the t...
International audienceAdaptive optics is a promising technique for the improvement of microscopy in ...
In transmitted optical microscopy, absorption structure and phase structure of the specimen determin...
Fiber photometry is used to monitor signals from fluorescent indicators in genetically-defined neura...
The imaging depth of two-photon excitation fluorescence microscopy is partly limited by the inhomoge...
In transmitted optical microscopy, absorption structure and phase structure of the specimen determin...
Multiphoton microscopy is the current method of choice for in vivo deep-tissue imaging. The long las...
Fiber photometry is used to monitor signals from fluorescent indicators in genetically-defined neura...
We present a novel approach for deconvolution of 3D image stacks of cortical tissue taken by mosaic/...
A fundamental challenge in neuroscience is the determination of the three-dimensional (3D) morpholog...
A fundamental challenge in neuroscience is the determination of the three-dimensional (3D) morpholog...
Optical sectioning of biological tissues has become the method of choice for three-dimensional histo...
A fundamental challenge in neuroscience is the determination of the three−dimensional 3D morphology ...
Optical sectioning of biological tissues has become the method of choice for three-dimensional histo...
Cells and tissues have complex 3-D surface topologies intimately related to their extracellular envi...
Abstract: The objective of this study is to investigate the use of deconvolution for improving the t...
International audienceAdaptive optics is a promising technique for the improvement of microscopy in ...
In transmitted optical microscopy, absorption structure and phase structure of the specimen determin...
Fiber photometry is used to monitor signals from fluorescent indicators in genetically-defined neura...
The imaging depth of two-photon excitation fluorescence microscopy is partly limited by the inhomoge...
In transmitted optical microscopy, absorption structure and phase structure of the specimen determin...
Multiphoton microscopy is the current method of choice for in vivo deep-tissue imaging. The long las...
Fiber photometry is used to monitor signals from fluorescent indicators in genetically-defined neura...