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Haga, Akihiro / Professor (by-work)   [Detail]
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Academic Degree: Ph.D
Field of Study: Medical Physics
Lecture: SIH(Strike while the Iron is Hot) Training (Common Curriculum), Advanced health sciences (Graduate School), Advanced medical image informatics and statistics (Graduate School), Advanced medical image informatics and statistics: Practice (Graduate School), Development of recent radiology (Bachelor Course), Medical statistics (Bachelor Course), Exercise in Medical Statistics (Bachelor Course), Medical Systems Engineering (Bachelor Course), Medical Data Science I (Basic) (Bachelor Course), Advanced lecture of medical information engineering (Graduate School), Exercise in advanced lecture of medical information engineering (Graduate School), Research in Medical Information Science (Graduate School), Analysis of Biomedical Information (Graduate School), Review of medical physics I (Graduate School), Review of medical physics II (Graduate School), Thermodynamics and Statistical Mechanics (Graduate School), Medical Imaging and Information Science II (Bachelor Course), Medical Imaging and Information Science II (Medical Image Analysis for Clinical Applications) (Bachelor Course), English in Radiological Technology (Bachelor Course), Applied Mathematics I (Algebra and analysis) (Bachelor Course), Applied Mathematics II (Bachelor Course), Applied Mathematics II (Fourier analysis and partial differential equation) (Bachelor Course), Introduction to How to Write Up Scientific Manuscript in English (Graduate School), Exercise in Computer Engineering (Bachelor Course)
Subject of Study: Medical image informatics (Medical Image Reconstruction, Image feature extraction, Atomics and Nuclear Physics, Radiation Physics, Machine Learning)
Morita, Akinori / Professor (by-work)   [Detail]
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Academic Degree: Ph. D.
Field of Study: Radiation Biology, Radiation Oncology, Molecular and Cellular Biology, Biochemistry, Chemical Biology
Lecture: SIH(Strike while the Iron is Hot) Training (Common Curriculum), Advanced health sciences (Graduate School), Development of recent radiology (Bachelor Course), Midwifery practice studies Ⅰ(Biology:embryology&human development,Human anatomy and Physiology・Pathophysiology of reproduction (Graduate School), Advanced lecture of medical information engineering (Graduate School), Exercise in advanced lecture of medical information engineering (Graduate School), Research in Medical Information Science (Graduate School), Radiation Biology (Bachelor Course), Radiation management (Bachelor Course), Practice in Radiation Protection and Safety (Bachelor Course), Radiation Hygiene (Bachelor Course), Molecular Radiation Biology and Medicine (Graduate School), Exercise in Molecular Radiation Biology and Medicine (Graduate School), Technology of Nuclear Medicine (Bachelor Course), Plactice in Technology of Nuclear Medicine (Bachelor Course), Biochemistry I (Bachelor Course), Biochemistry I(Structure and Function of Biomolecules) (Bachelor Course), Basic methods in life sciences (Graduate School)
Subject of Study: Development of novel kind of radioprotectors that relieve the damage of normal tissues in radiation injury., Development of radioprotective agents and anti-inflammatory agents by controlling immunoinflammatory responses.
Sakama, Minoru / Professor (by-work)   [Detail]
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Academic Degree: Doctor of Science
Field of Study: Nuclear Chemistry, Radiochemistry, Nuclear Physics, Radiation Measurement, Analytical Chemistry, Radiation Safety Management, Radiochemistry, Radiation Protection
Lecture: SIH(Strike while the Iron is Hot) Training (Common Curriculum), Introduction to Health Science (Bachelor Course), Health Sciences (Graduate School), Development of recent radiology (Bachelor Course), Advanced lecture of medical information engineering (Graduate School), Exercise in advanced lecture of medical information engineering (Graduate School), Research in Medical Information Science (Graduate School), Analysis of Biomedical Information (Graduate School), Thermodynamics and Statistical Mechanics (Graduate School), Laboratory in Basic Medical Science (Bachelor Course), English in Radiological Technology (Bachelor Course), Radiochemistry I (Basic) (Bachelor Course), Radiochemistry II (Bachelor Course), Radiochemistry II (Advanced) (Bachelor Course), Laboratory in Radiochemistry (Bachelor Course), Radioisotope (Bachelor Course), Radiation management (Bachelor Course), Practice in Radiation Protection and Safety (Bachelor Course), Technology of Nuclear Medicine (Bachelor Course), Plactice in Technology of Nuclear Medicine (Bachelor Course), Nuclear Medicine Therapy and Nuclear Chemistry (Graduate School), Exercise in Nuclear Medicine Therapy and Nuclear Chemistry (Graduate School), Nuclear medcine radiation measurement (Bachelor Course), Practice in nuclear medicine radiation measurement (Bachelor Course), Introduction to disaster nursing (Bachelor Course)
Subject of Study: Alpha-decay properties of neutron-deficient americium isotopes, 環境中の極微量放射性核種と安定主要・稀少元素との相関の解明 (環境放射能), 粒子・放射線輸送挙動解析コードPHITSを用いた基礎及び応用研究 (radiation therapy, radiation)
Yoshinaga, Tetsuya / Professor (by-work)   [Detail]
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Academic Degree: Doctor of Engineering
Field of Study: Medical Engineering, Nonlinear System Engineering
Lecture: SIH(Strike while the Iron is Hot) Training (Common Curriculum), Advanced health sciences (Graduate School), Advanced Medical Imaging Equipment Engineering (Graduate School), Exercise in Advanced Medical Imaging Equipment Engineering (Graduate School), Development of recent radiology (Bachelor Course), Medical Systems Engineering (Bachelor Course), Exercise in Medical Information Processing (Bachelor Course), Advanced lecture of medical information engineering (Graduate School), Exercise in advanced lecture of medical information engineering (Graduate School), Research in Medical Information Science (Graduate School), Analysis of Biomedical Information (Graduate School), Medical Imaging and Information Science I (Bachelor Course), Medical Imaging and Information Science I (Medical Image Processing and Analysis) (Bachelor Course), Medical Imaging Equipment Engineering (Bachelor Course), Laboratory in Medical Imaging Equipment Engineering (Bachelor Course), Exercise in Medical Information Processing (Bachelor Course), Health Economics (Bachelor Course), Graduation Research (Bachelor Course), Radiological Equipment Engineering I (Bachelor Course), Radiological Equipment Engineering I (Basic) (Bachelor Course), Radiological Equipment Engineering Ⅱ (Bachelor Course), Radiological Equipment Engineering Ⅱ (Advanced) (Bachelor Course), Laboratory in Radiological Equipment Engineering (Bachelor Course), Nuclear Medicine Equipment Engineering (Bachelor Course), Technology of Magnetic Resonance Imaging (Bachelor Course), Pharmacology (Bachelor Course), Rules and Regulations related to Radiation Safety (Bachelor Course), Laboratory in Computer Science (Bachelor Course), Exercise in Computer Science (Bachelor Course)
Subject of Study: Medical Engineering, Medical Image Equipment Engineering, Nonlinear System Engineering (nonlinear systems, medical image reconstruction, bifurcation phenomena, neuron model, chaos)
Kohno, Satoru / Associate Professor (by-work)   [Detail]
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Academic Degree: 博士(医学)
Field of Study: Cognitive Neuroscience, 脳機能計測学, 脳機能画像解析学
Lecture: SIH(Strike while the Iron is Hot) Training (Common Curriculum), Health Sciences (Graduate School), Development of recent radiology (Bachelor Course), Control Systems Engineering (Bachelor Course), Medical Systems Engineering (Bachelor Course), Medical Data Science II (Advanced) (Bachelor Course), Medical Engineering (Bachelor Course), Medical Engineering Ⅰ (Bachelor Course), Medical Engineering Ⅱ (Bachelor Course), Introduction to Medical Engineering (Bachelor Course), Research in Medical Information Science (Graduate School), Review of medical physics I (Graduate School), English in Radiological Technology (Bachelor Course), Magnetic Resonance Imaging (Bachelor Course), Magnetic Resonance Imaging (Bachelor Course), Functional Brain Image Analysis (Graduate School), Exercise in Functional Brain Image Analysis (Graduate School), Technology of Magnetic Resonance Imaging (Bachelor Course), Electrical and Electronic Engineering (Bachelor Course)
Subject of Study: fMRIを用いた感情調整の神経生物学的メカニズムの研究, fMRIの撮像技術,実験デザイン,統計的解析手法の開発, fNIRSの測定および信号解析技術に関する研究, 光イメージングにおける数理モデルと画像再構成
Kanazawa, Yuki / Assistant Professor (by-work)   [Detail]
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Academic Degree: 博士(保健学)
Field of Study: 放射線科学, Medical Imaging
Lecture: Magnetic Resonance Imaging (MRI) (Bachelor Course), SIH(Strike while the Iron is Hot) Training (Common Curriculum), Metabolism & functional imaging analysis (Graduate School), Exercise in Metabolism & Functional Imaging Analysis (Graduate School), Development of recent radiology (Bachelor Course), Medical Imaging and Information Science II (Bachelor Course), Medical Imaging and Information Science II (Medical Image Analysis for Clinical Applications) (Bachelor Course), Laboratory in Basic Medical Science (Bachelor Course), Exercise for Clinical Practice (Bachelor Course), Clinical practice of radiation therapy technology (Bachelor Course), Clinical Practice in Technology of Nuclear Medicine (Bachelor Course), Clinical Practice in Technology of Nuclear Medicine (Bachelor Course), Basics of imaging (Bachelor Course), Imaging Pathophysiology (Bachelor Course), Magnetic Resonance Imaging (Bachelor Course), Magnetic Resonance Imaging (Bachelor Course), Exercise for Clinical Practice (Bachelor Course), Technology of Magnetic Resonance Imaging (Bachelor Course), Technology of Clinical Imaging Ⅰ (Bachelor Course), Technology of Clinical Imaging (X-ray photography, Fluoroscopy, Dental radiography) (Bachelor Course), Practice in Technology of Clinical Imaging I (Bachelor Course), Technology of Clinical Imaging Ⅱ (Bachelor Course), Technology of Clinical Imaging Ⅱ (Bachelor Course), Practice in Technology of Clinical Imaging (Bachelor Course), Clinical Practice in Technology of Clinical Imaging (Bachelor Course)
Subject of Study: Magnetic resonance imaging, Magnetic resonance imaging (MRIを用いた組織血行動態解析, 生体におけるMR緩和時間測定法開発と応用, MRIを用いた生体情報の可視化)
Kojima, Takeshi / Assistant Professor (by-work)   [Detail]
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Academic Degree: 博士(工学)
Field of Study:
Lecture: SIH(Strike while the Iron is Hot) Training (Common Curriculum), Introduction to Data Science (Bachelor Course), Advanced Medical Imaging Equipment Engineering (Graduate School), Exercise in Advanced Medical Imaging Equipment Engineering (Graduate School), Control Systems Engineering (Bachelor Course), Exercise in Control System Engineering (Bachelor Course), Exercise in Medical Statistics (Bachelor Course), Medical Data Science II (Advanced) (Bachelor Course), Practice in medical engineering (Bachelor Course), Laboratory in Medical Imaging Equipment Engineering (Bachelor Course), Radiological Equipment Engineering I (Bachelor Course), Radiological Equipment Engineering I (Basic) (Bachelor Course), Radiological Equipment Engineering Ⅱ (Bachelor Course), Radiological Equipment Engineering Ⅱ (Advanced) (Bachelor Course), Laboratory in basics of imaging (Bachelor Course), Practice in electricity and electronics engineering (Bachelor Course)
Subject of Study:
Nishiyama, Yuichi / Assistant Professor (by-work)   [Detail]
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Academic Degree: 博士(保健学)
Field of Study: Radiation Biology, Radiation Science
Lecture: SIH(Strike while the Iron is Hot) Training (Common Curriculum), Clinical practice of radiation therapy technology (Bachelor Course), Radiation physics I (Basic) (Bachelor Course), Radiation physics II (Bachelor Course), Radiation physics II (Advanced) (Bachelor Course), Practice in Radiation Protection and Safety (Bachelor Course), Radiation Detection and Measurement (Bachelor Course), Laboratory in radiation measurement (Bachelor Course), Molecular Radiation Biology and Medicine (Graduate School), Exercise in Molecular Radiation Biology and Medicine (Graduate School), Clinical Practice in Technology of Nuclear Medicine (Bachelor Course), Laboratory in basics of imaging (Bachelor Course), Exercise for Clinical Practice (Bachelor Course), Clinical Practice in Technology of Clinical Imaging (Bachelor Course)
Subject of Study: p53制御によって正常組織への副作用を軽減する新規放射線防護剤の開発