Although modern fluorescence microscopy produces detailed three-dimensional (3D) datasets, colocalization analysis and region of interest (ROI) selection is most commonly performed two-dimensionally (2D) using maximum intensity projections (MIP). However, these 2D projections exclude much of the available data. Furthermore, 2D ROI selections cannot adequately select complex 3D structures which may inadvertently lead to either the exclusion of relevant or the inclusion of irrelevant data points, consequently affecting the accuracy of the colocalization analysis. Using a virtual reality (VR) enabled system, we demonstrate that 3D visualization, sample interrogation and analysis can be achieved in a highly controlled and precise manner. We cal...
Recent advances in fluorescence microscopy enable deeper cellular imaging in living tissues with nea...
In fluorescence microscopy, the accurate measurement of spatial closeness (colocalization) between t...
Brain organoids grown from human pluripotent stem cells self-organize into cytoarchitectures resembl...
Although modern fluorescence microscopy produces detailed three-dimensional (3D) datasets, colocaliz...
Images for a neuronal injury model, we investigate the change in colocalization between Tau and acet...
Recent advances in optical-sectioning microscopy, along with novel fluorescent proteins and probes, ...
International audienceMicroscopy image observation is commonly performed on 2D screens, which limits...
The qualitative analysis of colocalisation in fluorescence microscopy is of critical importance to t...
CITATION: Theart, R. P., Loos, B. & Niesler, T. R. 2016. Virtual reality assisted microscopy data vi...
International audiencevLUME is a virtual reality software package designed to render large three-dim...
Colocalization analyses of fluorescence images are extensively used to quantify molecular interactio...
In a wide range of biological studies, it is highly desirable to visualize and analyze three-dimensi...
Fluorescence microscopy is an indispensable tool for biology to study the spatio-temporal dynamics o...
Super-Resolution (SR) Microscopy based on 3D Single-Molecule Localization Microscopy (SMLM) is now w...
Abstract Three-dimensional (3D) reconstruction of thick samples using superresolution fluorescence m...
Recent advances in fluorescence microscopy enable deeper cellular imaging in living tissues with nea...
In fluorescence microscopy, the accurate measurement of spatial closeness (colocalization) between t...
Brain organoids grown from human pluripotent stem cells self-organize into cytoarchitectures resembl...
Although modern fluorescence microscopy produces detailed three-dimensional (3D) datasets, colocaliz...
Images for a neuronal injury model, we investigate the change in colocalization between Tau and acet...
Recent advances in optical-sectioning microscopy, along with novel fluorescent proteins and probes, ...
International audienceMicroscopy image observation is commonly performed on 2D screens, which limits...
The qualitative analysis of colocalisation in fluorescence microscopy is of critical importance to t...
CITATION: Theart, R. P., Loos, B. & Niesler, T. R. 2016. Virtual reality assisted microscopy data vi...
International audiencevLUME is a virtual reality software package designed to render large three-dim...
Colocalization analyses of fluorescence images are extensively used to quantify molecular interactio...
In a wide range of biological studies, it is highly desirable to visualize and analyze three-dimensi...
Fluorescence microscopy is an indispensable tool for biology to study the spatio-temporal dynamics o...
Super-Resolution (SR) Microscopy based on 3D Single-Molecule Localization Microscopy (SMLM) is now w...
Abstract Three-dimensional (3D) reconstruction of thick samples using superresolution fluorescence m...
Recent advances in fluorescence microscopy enable deeper cellular imaging in living tissues with nea...
In fluorescence microscopy, the accurate measurement of spatial closeness (colocalization) between t...
Brain organoids grown from human pluripotent stem cells self-organize into cytoarchitectures resembl...