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of academia and industry, driving projects that translate innovative science into novel cancer therapies. Key Responsibilities Conduct standard cell biology techniques, including 2D and 3D culture systems and
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characterize in-vitro vasculature-on-chip models. To create the vascular networks, we will use a proven concept of 3D printing and angiogenesis. With our previously developed sugar 3D printing technique, we can
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with cell culture, 3D models and in vitro assays. Experience in phototherapy, programming and large data analysis is a plus. Excellent communication skills and fluency in English (written and oral). Our
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-reality platform for medicine: interactive 3D models are reconstructed from 2D images (e.g., DICOM) and rendered on AR devices such as HoloLens 2 via Unity. Clinicians can manipulate the models and perform
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genome editing approaches, as well as co-culture systems modeling neuron–glioma interactions, with the main focus on investigating the impact of neuronal activity on 3D genome organization and cellular
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physiological and chemical biology of proteins like ion channels and proteases. The group tackles questions in the field of ion channels and proteases with innovative physiological, 3D modeling, structural
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this, the TUNIC project aims to develop a 3D tumour-on-chip (ToC) model incorporating primary neutrophils, tumour cells, and CD8+ T cells. This model will investigate the direct and indirect killing capacities
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Instituto de Investigação e Inovação em Saúde da Universidade do Porto (i3S) | Portugal | 2 months ago
(3D cancer models, Nanomedicine, Controlled release); - Participation in multidisciplinary projects. Additional Information Website for additional job details https://dozer.i3s.up.pt/fileupload
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only a single cell type to 3D cortical brain organoids. Genomic and Transcriptome data have been generated from these organoid models as well as postmortem brain samples and basic characterization has
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process rates and genes that are differentially expressed in genome-sequenced marine model bacteria and natural marine bacterial assemblages. Analyses will involve state-of-the-art techniques in microbial