| 2. |
- Wahlgren, Carl-Fredrik, et al.
(author)
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Evaluation of an interactive case simulation system in dermatology and venereology for medical students
- 2006
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In: BMC Medical Education. - : BioMed Central. - 1472-6920. ; 6
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Journal article (peer-reviewed)abstract
- BackgroundMost of the many computer resources used in clinical teaching of dermatology and venereology for medical undergraduates are information-oriented and focus mostly on finding a "correct" multiple-choice alternative or free-text answer. We wanted to create an interactive computer program, which facilitates not only factual recall but also clinical reasoning.MethodsThrough continuous interaction with students, a new computerised interactive case simulation system, NUDOV, was developed. It is based on authentic cases and contains images of real patients, actors and healthcare providers. The student selects a patient and proposes questions for medical history, examines the skin, and suggests investigations, diagnosis, differential diagnoses and further management. Feedback is given by comparing the user's own suggestions with those of a specialist. In addition, a log file of the student's actions is recorded. The program includes a large number of images, video clips and Internet links. It was evaluated with a student questionnaire and by randomising medical students to conventional teaching (n = 85) or conventional teaching plus NUDOV (n = 31) and comparing the results of the two groups in a final written examination.ResultsThe questionnaire showed that 90% of the NUDOV students stated that the program facilitated their learning to a large/very large extent, and 71% reported that extensive working with authentic computerised cases made it easier to understand and learn about diseases and their management. The layout, user-friendliness and feedback concept were judged as good/very good by 87%, 97%, and 100%, respectively. Log files revealed that the students, in general, worked with each case for 60–90 min. However, the intervention group did not score significantly better than the control group in the written examination.ConclusionWe created a computerised case simulation program allowing students to manage patients in a non-linear format supporting the clinical reasoning process. The student gets feedback through comparison with a specialist, eliminating the need for external scoring or correction. The model also permits discussion of case processing, since all transactions are stored in a log file. The program was highly appreciated by the students, but did not significantly improve their performance in the written final examination.
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| 3. |
- Wijk, Linda, et al.
(author)
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A pilot for a computer-based simulation system for risk estimation and treatment of mentally disordered offenders
- 2009
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In: Informatics for Health and Social Care. - : Informa Healthcare. - 1753-8157 .- 1753-8165. ; 34:2, s. 106-115
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Journal article (peer-reviewed)abstract
- Risk/need analysis and treatment of mentally disordered offenders (MDOs) take place in constrained clinical settings, but violence has to be considered in a context where both social and cultural factors are of significance. One way to improve treatment and risk/need analysis of MDOs could be to develop simulation systems where users interact with video-based scenarios. The objective of this study was to develop and pilot test a simulation system to be used as a tool to study MDOs and possibly also to play a part in their rehabilitation. Collaboration between simulation and forensic psychiatry experts and a professional film team was set up. A simulation system called 'Reactions on Display' (RoD) was developed and a pilot study with eight patients and 13 staff members was carried out. Results from the study showed that RoD's interface and design were well received by patients and staff. Participants indicated that they found the video sequences realistic and the system enjoyable to use. The pilot study of RoD was positive, but further research should study possible clinical outcomes of the system. However, we believe that RoD could provide an advance in treatment and risk/need analysis of MDOs.
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