2019
DOI: 10.1109/tvcg.2018.2864852
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Visualization of Neuronal Structures in Wide-Field Microscopy Brain Images

Abstract: Wide-field microscopes are commonly used in neurobiology for experimental studies of brain samples. Available visualization tools are limited to electron, two-photon, and confocal microscopy datasets, and current volume rendering techniques do not yield effective results when used with wide-field data. We present a workflow for the visualization of neuronal structures in wide-field microscopy images of brain samples. We introduce a novel gradient-based distance transform that overcomes the out-of-focus blur ca… Show more

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Cited by 20 publications
(15 citation statements)
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References 52 publications
(47 reference statements)
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“…To compensate for the broadening effects, previous studies proposed deconvolution methods for 3D reconstruction of 2PLSM images. 47,48 However, the methods require preliminary knowledge of the axial PSFs and need to assume that the PSFs in the sample are uniform. In reality, the axial PSF in tissue is largely variable depending on the anatomical structures.…”
Section: Broadening Effects Of Axial Psfmentioning
confidence: 99%
“…To compensate for the broadening effects, previous studies proposed deconvolution methods for 3D reconstruction of 2PLSM images. 47,48 However, the methods require preliminary knowledge of the axial PSFs and need to assume that the PSFs in the sample are uniform. In reality, the axial PSF in tissue is largely variable depending on the anatomical structures.…”
Section: Broadening Effects Of Axial Psfmentioning
confidence: 99%
“…Instead, we leverage the Morse-Smale complex to guide users when tracing through a volumetric representation. Boorboor et al [11] proposed a data processing and feature extraction pipeline, the output of which could be visualized in an immersive display wall visualization system implemented with Unity. Sicat et al [60] presented DXR, a Unity based toolkit for easily developing immersive visualization applications.…”
Section: Immersive Environmentsmentioning
confidence: 99%
“…Recently Sarton et al [SCRL16] presented an approach for high capacity screening of slices based on a tool combining pyramidal images representation and 3D visualization on multi‐stereo display, in order to simulate virtual microscopy (VM). Finally, Borboor et al [BJA*19] proposed a workflow for the visualization of neuronal structures in wide‐field microscopy images of brain samples, which uses a gradient‐based distance transform and multi‐scale enhancement filters. Our system comprises a scalable volume rendering component extending the method presented by Hadwiger et al [HBJP12], and integrating an hybrid object‐based empty space skipping scheme [HAAB*18] and a data structure for hybrid culling of integer label data [BMA*19], in order to enable real‐time inspection of volumetric EM data together with label data and additional metadata.…”
Section: Related Workmentioning
confidence: 99%