A Nationwide Survey on the Faculty Development for Simulation-Based Medical Education in Japan / 医学教育

We have conducted a nationwide survey on faculty development for simulation-based medical education in Japan. The response rate was 90%. Forty-seven (68%) schools have implemented faculty development programs for simulation-based education. The most commonly implemented contents were standardized patient development, task trainer, high fidelity manikin operation, and student evaluation, which were related to objective structured clinical examination objective clinical skill assessment. Only 15 percent of medical schools implemented topics on reflective practice, and scientific writing. A constraint on faculty time was the most commonly perceived barrier to simulation use (mentioned by 62 schools; 90%).

A joint survey of medical students' self-assessment of competency after clinical clerkship and learning strategies among 9 universities in Japan / 医学教育

<p>Abstract:</p><p></p><p> This study examined the ability of medical students to self-assess basic clinical competence and learning strategies including simulation-based medical education for sixth-year medical students (n=903) at nine universities in Japan. About 40% of 27 procedures to achieve clinical skills in a model curriculum were taught using simulators with or without clinical training in hospitals. We noted that significant numbers of procedures were not practiced through any learning strategies. Higher self-assessment scores were observed among students in 4 schools who had more frequent learning opportunities through simulation-based education than among those with less frequent opportunities in 5 schools.</p>

Medical Students' Simlympic Games 2014: / 医学教育

<p>　To encourage the broad use of simulation-based medical education and establish partnerships to promote objective structured clinical examinations after clinical clerkship among medical teachers, we hosted the first team-based clinical skills competition event for medical students in Japan, named ‘Medical Students' Simlympic Games 2014'. Thirty-six (12 teams of three) open-recruited 5th or 6th grade medical students participated in this event. Student teams performed clinical tasks at 6 stations, which actively utilized the strengths of simulators or simulated patients. Contents, composition, difficulty level, and validity were tested by trainee doctors and examined by committee members in advance. In this report, we describe our concept, executive committee formation, a variety of arrangements, the outline on the day of the event, and the results of a questionnaire targeting participants. (126 words)</p>

Training in physical examination using a cardiac patient simulator for medical students during bedside learning / 医学教育

Cardiac patient simulators are commonly used in Japanese educational institutions; however, most institutions have not established concrete learning objectives or strategies for mastering physical examination of the circulatory system, including cardiac auscultation. In this study, we propose clear learning objectives and strategies for simulator practice for fifth-year medical students who have passed the objective structured clinical examination, and explored their educational effectiveness.<br>1)The subjects were fifth-year medical students (n=94) at the University of Miyazaki. Learning objectives were the mastery of the sequential physical examination and the ability to distinguish 6 cardiac findings, including normal status. The subjects were evaluated with a checklist before and after lectures and simulator practice.<br>2)The mean score (maximum score=14) significantly increased from before simulator practice (2.2±0.9) to after simulator practice (11.4±1.5; p<0.001). There was no difference in scores after practice among the cardiac diseases.<br>3)Before practice more than 50% of subjects could use a stethoscope on only right positions and could indicate only the maximum point of a cardiac murmur; in contrast, after practice more than 90% of the subjects could sequentially describe physical findings and accurately predict cardiac diseases.<br>4)In a questionnaire administered after practice, 83% of the subjects answered that all physicians should acquire proficiency in cardiac auscultation regardless of their specialty.<br>Simulator practice with clear learning objectives may help improve clinical examination skills when both time and human resources are limited. The reevaluation of the program's continuing educational effectiveness and the establishment of an iterative learning program will be needed.

Effect of Repeated Training in Physical Examination with a New Cardiology Simulator for 1st-year Medical Residents Shortly after Receiving Medical Licenses / 医学教育

We used a new cardiology simulator twice to train lst-year medical residents in physical examination with a specific behavioral objective shortly after they had received their medical licenses. The first training sessions were to teach residents to understand normal heart sounds and to perform physical examinations in the proper order; the second training sessions were to teach recognition of abnormal heart sounds and murmurs. After the first training sessions, all residents could perform physical examinations in the proper order with special attention to the jugular vein, differentiation of systole and diastole by palpating the carotid artery, splitting of S2, and the timing and transmission of heart murmurs. Just after the second training sessions, all residents thought that their physical examination skills and ability to recognize abnormal heart sounds and murmurs had improved. One year later, the residents were accustomed to performing physical examination in the proper order and could recognize gallop rhythms and murmurs of grade 3/6 or higher. Repeated training with specific behavioral objectives could motivate residents to understand both normal and abnormal heat sounds and murmurs.