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by developing a vascularized cell niche using our innovative 3D-ICE technique and incorporating biochemical cues within a hydrogel system and such other tasks that are assigned to you. Core
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by developing a vascularized cell niche using our innovative 3D-ICE technique and incorporating biochemical cues within a hydrogel system and such other tasks that are assigned to you. Core
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the construction of the new 3D-ICE system, the fabrication of the cell niche, as well as conducting and supporting related experiments. This will include focusing on in vivo studies (design and execution) and
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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
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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
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on implantable cell-based medical devices, along with a system assembly to create fully functional devices and hormone calibration studies in vitro and in vivo. Core Responsibilities: Responsible for supporting
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sharing access to real-world challenges from domains including mobility and advanced manufacturing. Research Areas Carnegie Bosch Fellowships are intended to support researchers working in the fields