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Virtual reality framework for editing and exploring medial axis representations of nanometric scale neural structures

Daniya Boges, Marco Agus, Ronell Sicat, Pierre J. Magistretti, Markus Hadwiger, Corrado Calı

2020Computers & Graphics14 citationsDOIOpen Access PDF

Abstract

We present a novel virtual reality (VR) based framework for the exploratory analysis of nanoscale 3D reconstructions of cellular structures acquired from rodent brain samples through serial electron microscopy. The system is specifically targeted on medial axis representations (skeletons) of branched and tubular structures of cellular shapes, and it is designed for providing to domain scientists: i) effective and fast semi-automatic interfaces for tracing skeletons directly on surface-based representations of cells and structures, ii) fast tools for proofreading, i.e., correcting and editing of semi-automatically constructed skeleton representations, and iii) natural methods for interactive exploration, i.e., measuring, comparing, and analyzing geometric features related to cellular structures based on medial axis representations. Neuroscientists currently use the system for performing morphology studies on sparse reconstructions of glial cells and neurons extracted from a sample of the somatosensory cortex of a juvenile rat. The framework runs in a standard PC and has been tested on two different display and interaction setups: PC-tethered stereoscopic head-mounted display (HMD) with 3D controllers and tracking sensors, and a large display wall with a standard gamepad controller. We report on a user study that we carried out for analyzing user performance on different tasks using these two setups.

Topics & Concepts

Computer scienceVirtual realityStereoscopyTracingConvolutional neural networkArtificial intelligenceComputer graphics (images)Computer visionPattern recognition (psychology)Operating systemCell Image Analysis TechniquesAdvanced Fluorescence Microscopy TechniquesVisual Attention and Saliency Detection
Virtual reality framework for editing and exploring medial axis representations of nanometric scale neural structures | Litcius