This paper introduces the background, definition and duties of the clinical engineering technicians in Japan and their education and examination systems.
Biomedical Engineering ; education ; standards ; Japan ; Licensure ; standards

Based on the rankings of the best undergraduate/graduate biomedical engineering programs from the USA News & World Report, we have made a comprehensive analysis on the excellent education mode in USA 2002. It is hoped that the results as reference materials will be useful to our biomedical education at home.
Biomedical Engineering ; education ; Education, Graduate ; Humans ; Teaching ; United States

Bioengineering majors require students to acquire excellent abilities of thinking and analyzing complex problems and have high requirements for students' comprehensive practical skills. Because of the professional characteristics, it is necessary to develop students' abilities to solve complex problems via the teaching of a series of experiments. Therefore, it is particularly important to reform the traditional experiment teaching for students majoring in bioengineering to improve the teaching quality, which have great significance for the cultivation of comprehensive talents. In this study, with the advantages of geographical location and resources to cultivate application-oriented innovative talents, the course group of Comprehensive Experiment of Bioengineering has designed the course based on virtual simulation technology in Binzhou University. Taking the experiment of extraction and bioactivity analysis of Suaeda salsa (growing in the Yellow River Delta) polysaccharide in fermentation as a case, we studied the course design idea, experimental process, teaching method and result analysis, and have improved the teaching performance. This case analysis provides new ideas and content reference for the teaching reform of similar courses.
Bioengineering/education* ; Biomedical Engineering/education* ; Humans ; Students ; Technology ; Universities

Taking Duke University as an example, this article makes a comparison between the major of biomedical engineering in the Southeast University and that in American universities in term of subject direction, faculty, teaching principle and status of publishing academic papers. Through the comparison and analysis, the problems we face were explored. From the comparison and summary the future improvements in four aspects, such as strengthening the interdisciplinary among different majors, etc. so as to provide an inspiration on the future perspectives of research and teaching in biomedical engineering in China.
Biomedical Engineering ; education ; China ; Curriculum ; Education, Medical, Continuing ; Education, Medical, Undergraduate ; United States ; Universities

The curriculum reform was undertaken at Kyungpook National University School of Medicine (KNUSM) to meet new educational objectives in order to cope with a rapid societal changes anticipated occurring in 21st century. The KNUSM Curriculum Development Committee was charged to formulate a new curriculum, which consisted of enhancement of patient-centered care based clerkship, integrated courses based on organ systems, problem-based learning, and additional teaching on social medicine, medical informatics and biomedical engineering. The philosophy of this curricular reform has been to modify methods of teaching medical students toward self-directed learning and student-centered. This whole concept was a drastic departure from the traditional lecturing. In the new curriculum, total of 180 credit courses, 4395 hours to graduate medical school were reduced to 170 credit courses, 4250 hours. As a part of the social medicine course, a 2 credit-hour course on patient-doctor relationship was taught and two credit-hour PBL tutorials were added to freshman, sophomore and junior years. In order to carry out this education reform, three new departments were inaugurated such as Biomedical Engineering, Medical Informatics and Medical Education. The school facility has also been improved during this preparatory period. The new curriculum has been implemented in 1999 academic year after approximately 4 years of preparatory period and annual faculty workshops have been held to monitor the progress of the reform and improve courses by evaluating impact of the change on both faculty members and students as well. The interim evaluation revealed several issues remained to be resolved. In conclusion, the acceptance of this reform was excellent from both faculty members and students although there have been continuous problem solving and adjustments necessary. The real assessment of the outcome of the reform requires many years to come and there has to be continuous monitoring of the progress and adjustment of curriculum are the pivotal of a success of the sort of education reform.
Biomedical Engineering ; Curriculum* ; Education ; Education, Medical ; Gyeongsangbuk-do* ; Humans ; Learning ; Medical Informatics ; Patient-Centered Care ; Philosophy ; Problem Solving ; Problem-Based Learning ; Schools, Medical ; Social Medicine ; Students, Medical