Rabbit femoral condyle embedded with high biocompatible PEEKPrimary cortical neurons cultured on a substrate with an enhanced surface, co-developed with a company.Wild-type mouseKnock-out mouseCerebellar Purkinje cells labeled with fluorescent proteinElectron microscopic images of cerebellum lacking synaptic formation factornewly formed bonenewly formed boneStella Chemifa Corporation36Prof. Naoto Saito, Prof. Takeshi UemuraResearch subject?Development and safety evaluation of innovative biomaterials. ?Research on the molecular mechanisms of neural circuit and synapse Outlook for students after graduationAftergraduation,youcanengageinvariousfields,includingresearchandengineering.Biocompatible System EngineeringExploring uncharted territories in biomaterials and neuroscienceWe are researching in two key areas: biomaterials and brain science, to revolutionize future medicine. Biomaterials are crucial for cancer therapy and regenerative medicine, and we aim to develop new ones by understanding their biological responses. In brain science, we focus on understanding synapses, crucial for neuronal circuit formation and fundamental processes of brain functions such as learning, memory, and emotion. This knowledge could lead to the development of new treatments for mental disorders. Our goal is to contribute to enhancing people's health and advancing the future of medical care.?Research on the pathogenesis of neurodevelopmental disorders.Outlook for researchTherearestillnumerousdiseasesforwhichnocurehasbeenfound.Basicknowledgeaboutthebraincanbeasolidsteptowardovercomingmentaldisordersinthefuture.Byutilizinginsightsgainedfromthemechanismsoflivingorganisms,newmaterialscanbedeveloped,offeringnewapproachestodiseasesthatarecurrentlydifficulttotreat.formation. 2024-2025医学科188bet体育_188bet备用网址紹介
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