Creative Science and EngineeringⅠ FeaturesⅡ History and ProfileⅢ RequirementsFundamental Science and EngineeringAdvanced Science and EngineeringCONTENTSIt is said that the 21st century is the era of life science. Understanding of life science at the cellular and molecular levels has been dramatically advanced and medical health care, preventive medicine, tailor-made genomic drug discovery, drug delivery system, regeneration medicine, etc. are expected as near future medical services. Firm knowledge and experiment techniques gained in the academic field of science and technology are the building blocks for the body of knowledge to realize these treatments. The integration of knowledge of science and technology is necessary for the development of new fields of life science; therefore, it is also necessary to develop human resources who can expand studies on life science at the molecular level with their knowledge of science and technology.In the Department of Life Science and Medical Bioscience, based on the knowledge and research technologies of science and engineering, we study “life” from a foundational and application viewpoint, and develop new education by feeding back the latest knowledge gained from advanced studies. We also provide culture and scientific abilities related to the advanced fields of biomedical science through practical scientific studies and develop human resources with solid basic skills in science and engineering who can play active roles in the fields of life science, medical science, and medical engineering.Students learn fundamental knowledge in the physics and chemistry of materials and devices related to biomaterials and life sciences, and elucidate the physicochemical, optical, electro-magnetic, and physiological properties of pharmaceuticals, biomolecules, bioactive substances, and functional materials. With an interdisciplinary perspective, students engage physico-chemical property measurements based on optical techniques such as chiral and magneto-optics, bio-devices developments using nanotechnology such as electrochemical and microfabrication techniques, and further develop research on immunology, neurological disorders, and cell engineering utilizing bioinformatics.◆ NeurophysiologyPhysiological studies of neural systems. We are working on various aspects of the nervous system from functional imaging of the brain to signal transduction mechanisms in neurons using living animals, brain tissue, and cell preparations by means of imaging and molecular biological techniques.◆ Molecular Brain ScienceWe aim to understand the molecular mechanisms of neuronal differentiation, brain formation and Summary of Each Research Guidance◆ Solid State Bioscience140140Department of Life Science and Medical Bioscience
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