Radiological Technology

The science of radiation has made many contributions to modem society through its applications in medicine, industry and power plants. The Radiological Technology Course teaches how to use radiation in effective and safe ways though a correct understanding of the scientific principles of radiation. Graduates from this course work actively as advanced radiation technologists, industry engineers and researchers. Five research laboratories support the development of new medical technologies for the next generation.

Our education places emphasis on fundamental knowledge of technology as a firm base, as well as application ability, clinical training in collaboration with the Faculty of Medicine and the University hospital, and nurturing English communication ability.
The education program consists of five areas: 1. Fundamental physics including atomic structure and radiation interaction with matter, radiation measurements and radiation protection for safe and effective use, 2. Biology, medicine and health sciences as part of a team approach to medicine, 3. Fundamental knowledge and techniques to cope with various medical equipment for diagnosis and radiation therapy, 4. Medical imaging technologies including imaging informatics, and 5. Clinical training and practice.
The curriculum was revised in accordance with new government regulations that mandate course information covering patient care, advanced anatomy and imaging informatics. We plan to realize the faculty concept of cultivating members of medical teams by designing appropriate and ongoing revisions of the education system to reach our long-term goal of medicine for Patients.
A new graduate course started in 2007 for education of advanced radiological technologists to be professionals concerning radiation therapy for cancer in addition to the existing graduate courses.

Medical Imaging technologies

This laboratory develops new methods for quantitative diagnosis and image processing techniques. The following subjects are included: 1. Development of new reconstruction algorithm technique for CT and SPECT, 2. Anatomical volume measurement methods in MRI images, and 3. Accuracy improvement in nuclear medicine imaging.

Clinical Imaging Technology

This laboratory concerns various diagnostic imaging technology and clinical training.

Medical Informatics Engineering

Medical informatics engineering is based on the related fields, such as medical care welfare and medical information technology. This laboratory provides the education, training and research of the image engineering, medical informatics about image processing, telemedicine, and home-health care treatment.

Radiation Sciences

Radiation sciences (physics and biology) provide the basis of diagnostic and therapeutic radiology. This laboratory is responsible for the education of fundamental scientific knowledge and technology such as radiation Physics, radiation biology, medical physics and radiation measurement. Research activities encompass developing new methods for in-vivo dosimetry, PET, heavy-ion CT and gene-based radiation therapy.

Radiation Protection and Safety

The following subjects concerning radiation protection are studied: 1. Collection methods and monitoring of radon in the environment, 2. Decomposition of air pollutants such as Freon with low energy X-ray radiation, 3. Preparation process of radiopharmaceuticals for PET.

Medical Engineering and Technology : Radiological Technology

Qualification to take the examination for Radiological Technologists