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% between 2020 and 2040. With the current technology, 10% of those artificial shoulder implants will fail within the first 10 years of service, mainly due to soft tissue failure, infection, and implant
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biofluids and tissues in different disease states. Work in collaboration with senior lab members to establish automation using liquid handling instruments such as Tecan, Opentron, and Eppendorf Provide
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well as the heterogeneity of cell states and their spatial distribution within a tumor. CyCIF is applied to tissues from a diverse set of sources, including genetically engineered mice, patient-derived xenografts propagated
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Fundació Privada Institut d'Investigació Oncològica de Vall d'Hebron (VHIO) | Spain | about 2 months ago
” Application deadline: 15/12/2025 Number of vacancies: 1 Job description: The Cancer Genome Engineering Lab is focused on dissecting the role of large-scale chromosomal changes in cancer. Our goal is to identify
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, make discoveries, serve as an engine of economic growth, and generate ideas for improving people's lives. Connections working at Rutgers University More Jobs from This Employer https://main.hercjobs.org
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systems/fabrication Biomedical computation/modeling Biomolecular and cellular engineering Biomaterials Tissue/regenerative engineering Neuroengineering Systems biology Cardiovascular engineering These
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laboratory can be found at https://www.gsh.sph.harvard.edu. We are looking for a Research Assistant (RA) who is enthusiastic and excited about biomedical science and the work we do in our lab, and who wants
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. We have particular strengths in membrane proteins and RNA biochemistry and are pioneers in all areas of biophysics, structural biology, biochemistry, and protein engineering and design. Please explore
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join the Henry Lab at the Massachusetts Institute of Technology (MIT), led by Dr. Whitney Henry, an HHMI Freeman Hrabowski Scholar. The Henry Lab investigates the fundamental biology of ferroptosis
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group. The field of additive manufacturing is rapidly transforming the future of biomaterials and tissue engineering by enabling the precise fabrication of complex biological structures with tailored