| 51. |
- Moller, H., et al.
(författare)
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Technology-Enhanced Learning of Human Trauma Biomechanics in an Interprofessional Student Context
- 2022
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Ingår i: Teaching and Learning in Medicine. - : Informa UK Limited. - 1040-1334 .- 1532-8015. ; 34:2, s. 135-144
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Tidskriftsartikel (refereegranskat)abstract
- Phenomenon This study aimed to investigate how students can develop their understanding of trauma biomechanics by means of technology-enhanced learning-an interactive visualization tool developed to enhance understanding of the biomechanics underlying an injury via dynamic imaging sequences. Approach: Students were invited to explore the content as a learning resource during an interprofessional clinical placement on an orthopedic ward. Thirty volunteer medical, nursing, and physiotherapy/occupational therapy students participated in 10 interprofessional groups of three participants. They were video recorded while interacting with learning software that was divided into five sections: Work Up, General Information, Biomechanical Case Study, Biomechanical Risk Assessment, and Treatment. Investigators probed students' learning experiences via four focus group discussions. A sociomaterial perspective was adopted, directing the analytical focus to how students' made use of talk, gestures, bodies, and material objects to understand the visualized phenomena. Findings: When connecting the visualization to a patient case, certain features of the technology stood out as important for promoting engagement and understanding trauma mechanisms. Decreased tempo, showing the directions and dynamics of trauma biomechanics in slow-motion, and color coding of the strain on the affected structures were especially important for evoking the emotional responses. The visualization tool also supported students' explorations of causal relationships between external forces and their biomedical effects. These features emphasize the sociomaterial relation between the design of the technology and the student activities. Insights: Dynamic visualization of biomechanical events has the potential to improve the understanding of injury mechanisms and specifically to identify anatomical structures at high risk of injury. Dynamic visualizations for educational purposes seem to promote possibilities for learners to contextualize visual representations relative to one's own body. Educational methods and practice need explicit attention and development in order to use the full potential of the visualization technology for learning for the health care professions.
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| 52. |
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| 53. |
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| 54. |
- Nivala, M., et al.
(författare)
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Interactive visual tools as triggers of collaborative reasoning in entry-level pathology
- 2012
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Ingår i: International Journal of Computer-Supported Collaborative Learning. - : Springer Science and Business Media LLC. - 1556-1607 .- 1556-1615. ; 7:4, s. 499-518
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Tidskriftsartikel (refereegranskat)abstract
- The growing importance of medical imaging in everyday diagnostic practices poses challenges for medical education. While the emergence of novel imaging technologies offers new opportunities, many pedagogical questions remain. In the present study, we explore the use of a new tool, a virtual microscope, for the instruction and the collaborative learning of pathology. Fifteen pairs of medical students were asked to solve diagnostic tasks in a virtual microscopy learning environment. The students' collaborative efforts were analysed on the basis of approximately 20 hours of video recordings. Our analyses show how students use the technology as a mediating tool to organize, manipulate and construct a shared visual field, and later, shared understanding of the problem and solutions. Organization of the visual field is done through multimodal referential practices: gestures, three dimensional manipulation of the image and paced inspection of the specimen. Furthermore, we analyse and describe how the aforementioned practices coincide with students' medical reasoning in this particular learning context. The analysis of medical students' diagnostic work illustrates the collaborative potential of the virtual microscopy environment and how such interactive tools render the traditional distinction between collaborating around or through computers irrelevant, as even face to face collaboration becomes enacted through technology. Finally, we argue that as technologies develop, understanding the technical side of image production, or any representation, becomes an integral part of the interpretative process. How this knowledge is communicated to the students may play a substantive role in how students learn to interpret medical images.
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| 55. |
- Nivala, Markus, et al.
(författare)
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Using virtual microscopy to scaffold learning of pathology : a naturalistic experiment on the role of visual and conceptual cues.
- 2012
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Ingår i: Instructional Science. - : Springer Science and Business Media LLC. - 0020-4277 .- 1573-1952. ; 40:5, s. 799-811
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Tidskriftsartikel (refereegranskat)abstract
- New representational technologies, such as virtual microscopy, create new affordances for medical education. In the article, a study on the following two issues is reported: (a) How does collaborative use of virtual microscopy shape students’ engagement with and learning from virtual slides of tissue specimen? (b) How do visual and conceptual cues scaffold students’ reasoning? Fifteen pairs of medical students participated in two sessions in which the students used a virtual microscope as a diagnostic tool in the context of learning pathology. The slides provided the students with varying levels of visual and conceptual cueing. The sessions were videotaped, and the students’ reasoning while using the microscope was analysed. The students’ written answers were analysed in terms of the findings they made and the diagnoses suggested. At a general level, the results show that students engage actively in this kind of virtually-mediated environment. The visual and/or conceptual cues improve students’ performance, and guide the students’ perception and reasoning in a manner that is productive from the point of view of learning to make clinically relevant observations. Scaffolding students’ reasoning process through cues furthermore assists the students in avoiding the most obvious pitfalls such as overlooking critical areas of a specimen. Overall, visual and conceptual cues improve students’ reasoning in perceptual and cognitive terms, while still allowing space for the making of ‘‘relevant mistakes’’ that may further the students’ diagnostic skills.
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| 56. |
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| 57. |
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| 58. |
- Oxelmark, Lena, et al.
(författare)
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Students' understanding of teamwork and professional roles after interprofessional simulation: a qualitative analysis
- 2017
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Ingår i: Advances in Simulation. - : Springer Science and Business Media LLC. - 2059-0628. ; 2:8
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Tidskriftsartikel (refereegranskat)abstract
- Background: This study explores how interprofessional simulation-based education (IPSE) can contribute to a change in students’ understanding of teamwork and professional roles. A series of 1-day training sessions was arranged involving undergraduate nursing and medical students. Scenarios were designed for practicing teamwork principles and interprofessional communication skills by endorsing active participation by all team members. Methods: Four focus groups occurred 2–4 weeks after the training. Thematic analysis of the transcribed focus groups was applied, guided by questions on what changes in students’ understanding of teamwork and professional roles were identified and how such changes had been achieved. Results: The first question, aiming to identify changes in students’ understanding of teamwork, resulted in three categories: realizing and embracing teamwork fundamentals, reconsidering professional roles, and achieving increased confidence. The second question, regarding how participation in IPSE could support the transformation of students’ understanding of teamwork and of professional roles, embraced another three categories: feeling confident in the learning environment, embodying experiences, and obtaining an outside perspective. Conclusions: This study showed the potential of IPSE to transform students’ understanding of others’ professional roles and responsibilities. Students displayed extensive knowledge on fundamental teamwork principles and what these meant in the midst of participating in the scenarios. A critical prerequisite for the development of these new insights was to feel confident in the learning environment. The significance of how the environment was set up calls for further research on the design of IPSE in influencing role understanding and communicative skills in significant ways.
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| 59. |
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| 60. |
- Rystedt, Hans, 1951, et al.
(författare)
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Advancing Simulation Pedagogy and Research
- 2019
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Ingår i: Interprofessional Simulation in Health Care: Materiality, Embodiment, Interaction. - Cham : Springer. - 2210-5549 .- 2210-5557. - 9783030195410 ; , s. 197-211
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Bokkapitel (refereegranskat)abstract
- The final chapter of the book reflects on the challenges and benefits of interprofessional research collaboration, sharing data, and the application of different theoretical lenses when focusing on different aspects of practices, located in different national and international contexts. The chapter also outlines some challenges for the development of future simulation pedagogy, based on the findings of the collated research, and discusses areas in need for further research and development.
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