Although there are many commercially available training software programs for pharmacokinetics, they lack flexibility and convenience. In this study, we develop simulation software to facilitate pharmacokinetics education. General formulas for time courses of drug concentrations after single and multiple dosing were used to build source code that allows users to simulate situations tailored to their learning objectives. A mathematical relationship for a 1-compartment model was implemented in the form of differential equations. The concept of population pharmacokinetics was also taken into consideration for further applications. The source code was written using R. For the convenience of users, two types of software were developed: a web-based simulator and a standalone-type application. The application was built in the JAVA language. We used the JAVA/R Interface library and the ‘eval()’ method from JAVA for the R/JAVA interface. The final product has an input window that includes fields for parameter values, dosing regimen, and population pharmacokinetics options. When a simulation is performed, the resulting drug concentration time course is shown in the output window. The simulation results are obtained within 1 minute even if the population pharmacokinetics option is selected and many parameters are considered, and the user can therefore quickly learn a variety of situations. Such software is an excellent candidate for development as an open tool intended for wide use in Korea. Pharmacokinetics experts will be able to use this tool to teach various audiences, including undergraduates.
Education ; Indonesia ; Korea ; Learning ; Methods ; Pharmacokinetics ; Pliability ; Simulation Training

PURPOSE: The purposes of study was to evaluate the effect of debriefing using reflection questions and writing on the critical thinking disposition, self-efficacy, and clinical judgement ability in simulation of post-operative care of abdominal surgery. METHODS: The research method was a nonequivalent control group no-synchronized design. The study period was from August 22 to 30, 2016. The subjects were comprised of 34 people in the experimental group and 36 in the control group. In a simulation session for post-operative care of abdominal surgery, the treatment of the experimental group was to debrief for 30 minutes using Lasater's reflection questions and writing. For the control group, a typical debriefing was conducted in the same environment. RESULTS: Critical thinking disposition, self-efficacy, and clinical judgement were significantly higher in the experimental group than the control group. CONCLUSION: To enhance the critical thinking disposition, self-efficacy, and clinical judgement of nursing students in simulation, it is recommended to debrief using reflection questions and writing.
Humans ; Methods ; Patient Simulation ; Self Efficacy ; Simulation Training* ; Students, Nursing ; Thinking ; Writing*

OBJECTIVE: Tube thoracostomy (TT) is a commonly performed intensive care procedure. Simulator training may be a good alternative method for TT training, compared with conventional methods such as apprenticeship and animal skills laboratory. However, there is insufficient evidence supporting use of a simulator. The aim of this study is to determine whether training with medical simulator is associated with faster TT process, compared to conventional training without simulator. METHODS: This is a simulation study. Eligible participants were emergency medicine residents with very few (≤3 times) TT experience. Participants were randomized to two groups: the conventional training group, and the simulator training group. While the simulator training group used the simulator to train TT, the conventional training group watched the instructor performing TT on a cadaver. After training, all participants performed a TT on a cadaver. The performance quality was measured as correct placement and time delay. Subjects were graded if they had difficulty on process. RESULTS: Estimated median procedure time was 228 seconds in the conventional training group and 75 seconds in the simulator training group, with statistical significance (P=0.040). The difficulty grading did not show any significant difference among groups (overall performance scale, 2 vs. 3; P=0.094). CONCLUSION: Tube thoracostomy training with a medical simulator, when compared to no simulator training, is associated with a significantly faster procedure, when performed on a human cadaver.
Animals ; Cadaver ; Chest Tubes ; Critical Care ; Education ; Emergency Medicine ; Humans ; Methods ; Simulation Training ; Thoracostomy*

PURPOSE: Clinical nursing practice is important because it helps nursing students experience realities of clinical nursing that cannot be learned through theoretical education. This study aimed to evaluate the effect of an interactive nursing skills mobile application for nursing students. METHODS: Sixty-six senior nursing students were randomly assigned to experimental or control groups. The experimental group used an interactive nursing skills mobile application for 1 week. The control group was provided with a mobile application containing noninteractive nursing video contents for 1 week. Before (pre-test) and 1 week after (post-test) using the mobile application, participants' knowledge of clinical nursing skills, self-efficacy of nursing practice, and nursing skills performance were assessed. RESULTS: The experimental group showed a significantly higher value for knowledge after 1 week of treatment via their mobile application than the control group (t = 3.34, p = .001). In addition, they showed significantly improved self-efficacy before and after intervention (t = 2.46, p = .017) than the control group. The experimental group's nursing skills performance was also significantly enhanced after intervention (t = 7.05, p < .001), with a significant difference in the degree of improvement (t = 4.47, p < .001). CONCLUSION: The interactive learner-centered nursing education mobile application with systematic contents was an effective method for students to experience practical nursing skills. Developing and applying a mobile application with other nursing contents that can be effectively used across all range of nursing students is recommended.
Education ; Education, Nursing ; Humans ; Methods ; Mobile Applications* ; Nursing* ; Nursing, Practical ; Simulation Training ; Students, Nursing

PURPOSE: We previously described a new procedure specific module (Tube 3) to allow the practice of vesicourethral anastomosis after robot-assisted radical prostatectomy. Herein, we report a predetermined proficiency level of Tube 3 and preliminary validation to explore whether this new module can lead to performance improvement in the da Vinci system. MATERIALS AND METHODS: Eight urology residents and three urology fellows performed the Tube 3 module 1 hour daily for 7 days. The learning curve was depicted through a scatterplot and the stable point was identified through the cumulative sum chart. Concurrent and predictive validations were performed with the da Vinci system. The mean time to complete the task and end product rating score between Tube 3 training group and no Tube 3 training group were compared. RESULTS: Concerning the learning curve, about 41 repetitions comprising about 5 hours were needed to achieve this stable point when the mean time to complete Tube of 384 seconds was set as a target. With regarding to the concurrent and predictive validation, there significant differences were evident in the mean time to complete 16 needle passages and the vesicourethral anastomosis and the end product rating score. CONCLUSIONS: The virtual reality (VR) simulator can yield sufficient improvement in technical performance in Tube 3 within 5 hours. The acquired proficiency can be transferable to the vesicourethral anastomosis using the da Vinci system.
Anastomosis, Surgical/methods ; Clinical Competence ; Computer Simulation ; Education, Medical, Graduate/*methods ; Humans ; Learning Curve ; Male ; Prostatectomy/*education/methods ; Robotic Surgical Procedures/*education/methods ; Simulation Training/methods ; Urethra/surgery ; Urinary Bladder/surgery ; User-Computer Interface

PURPOSE: This study aimed to compare the effects of simulation integrated with problem based learning (S-PBL) according to the sequences of problem-based learning (PBL) and high fidelity simulation training (HFS) on knowledge, clinical performance, clinical judgment, self-confidence, and satisfaction in fourth-grade nursing students. METHODS: In this randomized crossover design study, four S-PBLs on medical-surgical nursing were applied alternatively to two randomly-assigned groups of 26 senior nursing students for 8 weeks. The collected data were analyzed using an independent t-test. RESULTS: The method of administering PBL prior to HFS led to significantly higher scores on knowledge (t=2.28, p=.025) as compared to the method of administering HFS prior to PBL. However, the latter method led to significantly higher scores on clinical performance (t=−6.49, p < .001) and clinical judgment (t=−4.71, p < .001) as compared to the method of administering PBL prior to HFS. There were no differences in the effect of the two methods on self-confidence (t=1.53, p=.128) and satisfaction (t=1.28, p=.202). CONCLUSION: The integration sequences of S-PBL was associated with different learning outcomes. Therefore, when implementing S-PBL, it is necessary to consider the educational goal to executes an appropriate sequence of integration.
Cross-Over Studies ; Humans ; Judgment ; Learning ; Medical-Surgical Nursing ; Methods ; Nursing Education Research ; Nursing ; Problem-Based Learning ; Simulation Training ; Students, Nursing