Cognitive abilities and medical students' practice of physical exams: A quasi-experimental study

ABSTRACT BACKGROUND: To highlight the importance of clinical simulations and simulated laboratories for student training, especially in physical examination teaching. OBJECTIVE: To evaluate the gains obtained by medical students in their cognitive and practical performance of physical examinations (abdominal, cardiological, and pulmonary), as well as satisfaction and self-confidence in what they have learned, after concentrated practice developed in a skills and simulation laboratory. DESIGN AND SETTING: A quantitative and quasi-experimental study in which 48 students were evaluated at the Faculdade de Odontologia de Bauru, São Paulo, Brazil. METHODS: A quantitative and descriptive study was conducted with regularly enrolled 2nd year medical students over 18 years of age who had content prior to data collection regarding anamnesis and physical examination remotely taught in a Moodle virtual learning environment. For data collection, the participants were subjected to a concentrated period of skill training (abdominal, cardiological, and pulmonary). Every day after the skill training session, they were subjected to a practical evaluation and completed a theoretical test before and after the practical activities. At the end of all activities, they answered the instrument to assess the simulated practices (self-confidence and satisfaction). RESULTS: Among the 49 students evaluated, positive and significant theoretical and practical gains were identified in all three components (abdominal, cardiological, and pulmonary) (P = 0.000), as well as in the general evaluation (Theoretical 1 and Theoretical 2) (P = 0.000), satisfaction, and self-confidence (P = 0.000). CONCLUSION: Concentrated laboratory practice resulted in positive improvements in students' physical examination skills.

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 2012 nationwide survey on the application of simulation-based education in medical schools in Japan / 医学教育

Because recent changes in medical care security policy have made clinical skills training difficult, even in teaching hospitals, training with suitable models and simulators is becoming essential for medical students to acquire clinical skills. On the basis of these changes, we performed a nationwide survey on the prevalence and application of clinical skills laboratories for clerkships in Japan. Registered questionnaires were sent to all medical schools in Japan （n＝80） in December 2012. The response forms were filled out by clinical instructors and by the staff responsible for the skills laboratory. The response rate was 94% （75 of 80 schools）. Seventy-one schools （95%） have already installed clinical skills laboratory; however, floor area and availability varied greatly among schools. Floor space ranged from 24 to 2,250 m2 （median, 214 m2）. The number of uses of the facility by medical students in the 2011 school year ranged from less than 100 to more than 10,000 （median, 1,402）. Forty-two schools （59%） had a resident director for the skills laboratory. Simulators of most universities （> 90%） were venopuncture simulators, lung-sound simulators, basic life support mannequins, heart-sound simulators, surgical suture trainers, and automated external defibrillator trainers, and all were frequently used. These results suggest considerable differences among schools in simulation-based learning environments during clinical clerkships. Although most medical schools in Japan have their own clinical skills laboratories, their size, service, and frequency of use vary greatly.

Construction of Yanegawara-style skills training in our clinical skills laboratory for new residents / 医学教育

1）To learn the techniques required immediately after the start of clinical practice, new residents were introduced to the skills laboratory during their orientation period.<br>2）We attempted to establish the Yanegawara style, which is an overlapping teaching style in which the second–year residents plan the entire training schedule and simultaneously teach the first–year residents while being supported in their teaching by more senior physicians.<br>3）Training with the new system resulted in greater rapport among all residents as well as a greater feeling of security among first–year residents.

Current Status of the Clinical Simulation Laboratory at Kyorin University Faculty of Medicine and Affiliated Hospital / 医学教育

1)Our Clinical Simulation Laboratory (CSL) registered 19,085 training attendances with nurses accounting for the majority of trainees in first three years. Basic Life Support training experienced the highest demand.<br>2)CSL usage rose markedly in both spring and fall, showing three daily peaks (9 am, 10 am and 5 pm), and lasted for an average of one and a half hours per session.<br>3)The lending rate of the simulators to areas outside CSL came to about half of the internal use rate. The current simulator–based training program requires improvement to increase attendance by medical students and doctors.

A training method of central venous catheterization using a simulator / 医学教育

1) The central venous catheterization (CVC) training program for 2 trainees involves an instructor, a CVC insertion simulator (Kyoto Kagaku Co., Ltd), and a simulated patient.<br>2) The questionnaire filled out by trainees after the program showed favorable opinions, particularly the method of learning after the practice.<br>3) It is important that effective simulation programs for trainees are designed to develop practical procedures and professional attitudes as a physician using both a simulator and a simulated patient.

Utility and Usefulness of the Skills Laboratory to Improve Practical Training in Clinical Skills / 医学教育

Medical students at Kurume University begin practical training in clinical skills in their fourth year. At that time, students use the skills laboratory to improve their clinical skills. Medical education resources in the skills laboratory include simulators for emergency resuscitation and heart diseases, wireless stethoscopes, and videotapes. All students use the skills laboratory for 2 months, and its usefulness was evaluated with questionnaires after practical training. More than 50 % of students approved of their practice in the skills laboratory. However, some students were unsatisfied because they were unable to make effective use of the simulators. In the future, an improved skills laboratory will be necessary to improve practical training in the clinical skills for medical students.