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on three main Workpackages (WPs): • WP1: Characterizing the inflammatory response and airway remodeling in a novel 3D model of Apical-Out Airway Organoids (AOAO) derived from pediatric asthmatic patients
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/scholarship agreement: 1 year with the possibility of extension Project leader: Przemysław Spurek Project title: Effective rendering of 3D objects using Gaussian Splatting in an Augmented Reality environment
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funded by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description Are you interested in accelerating Sweden’s transition to green hydrogen by combining 3D
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forming a moist microbial rhizosphere habitat. Your work will build on the process-based soil-rhizosphere-plant model, developed at the Agrosphere Institute, which integrates a 3D functional-structural
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a tool for mechanistic studies and preclinical therapeutic testing. PhD Project 2. Engineering Multicellular 3D In Vitro Models to Elucidate Bone Regeneration Mechanisms Large bone defects and non
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(a) develop a vascularized brain-on-chip, which allows the growth of neural tissue coupled to a BBB in vasculature-like channels, (b) integrate 3D electrodes in the vascularized model and (c
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temperatures using thermography with acceptable accuracy. Evaluation of available components, design and construction of the device, and production of a 3D model. Methodology for surface temperature measurement
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to use cutting-edge tools such as single cell genomics, epigenomics, high-resolution microscopy, novel transgenic mouse models, 3D organoid in vitro models, and customized bioinformatics pipelines
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of the work The objectives of the PhD are threefold. First, it aims to develop a reference numerical model for the propagation of wind turbine noise in the atmosphere. This model will be based on a 3D parabolic
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Cryo-EM Single Particle Datasets Using 3D-to-2D Flexible Fitting based on Molecular Dynamics Simulation. J Mol Biol. 2023;435:167951. https://hal.science/hal-03929029 [3] Valimehr S, Vuillemot R, Kazemi