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-derived organoid models. You will work closely with in-house technology platforms, including the Single Cell Genomics Facility, Big Data Core and High Throughput Screening Facility. Our research is embedded
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for pediatric diseases. Project Description: Our research focuses on how genetic variants contribute to diseases during early development and on developing mechanism-driven therapeutics. While animal models have
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to fill a full-time Postdoctoral Scholar position. The Postdoctoral Scholar candidate will perform mentored research on the development of an engineered niche comprised of 3D hydrogels to improve current
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characterization of 3D structures using microscopic and tomographic techniques. You will also work with architects, designers, and engineers to develop biomimetic models of fiber-reinforced structures in order to
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(TMJ) degeneration and pain, and salivary gland degeneration. The lab uses mouse and human iPSC/organoid models equipped with genomic, single cell RNA sequencing, spatial transcriptomics, tissue clearing
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, including 3D modelling, physics integration, and cross-platform deployment (PC, mobile, AR); integrating and deploying AR navigation applications on Microsoft HoloLens, covering spatial mapping, SLAM
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/microglia-based 3D models recapitulating neural-microglia interactions, using biomaterials and (micro)tissue engineering approaches. The innovative aspect of the project will be in developing new analysis
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Electrodynamics General Circulation Model (TIE-GCM) is a global 3D numerical model that simulates the coupled ionosphere-thermosphere system from ∼97 to ∼600 km height. It self-consistently solves the fully coupled
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Hospital, an inclusive centre of excellence working to advance lung health. The postholder will also be required to work closely with KCL team members in the Parsons Group, for expertise in 3D culture models
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development, repair, and disease, with particular attention to controlling tissue architecture and epithelial composition. Candidates should have demonstrated expertise in 3D bioprinting, mammalian cell culture