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This project aims to develop interactive Virtual Patients to enhance the integration of basic scientific knowledge with future medical careers. Virtual Patients are aligned with learning outcomes and provide formative feedback to students, helping them test their understanding and develop clinical skills. Evaluation results show positive student ratings and increased engagement with course materials.
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KE9 Curriculum Integration Design: Virtual Patient Year 2 Learning in context Dr Nicola Englyst, Dr Kirsten Poore, Dr Claire Smith 24th March 2011
Project overview: Year 2: 'Preclinical' Medical EducationSpiralling Curriculum Semester 3 Gastrointestinal Nervous and Locomotor 2 Semester 4 Respiratory, Cardiovascular and Renal 2 Endocrinology and the Life Cycle
Lecture Lecture Symposium Lecture Lecture Symposium Lecture Lecture Practical Feedback Practical Practical How do we make learning facts interesting?!! • Basic sciences + basic clinical information • Lectures, tutorials, practicals and symposia 1 case per week throughout semester
feeling watching doing thinking Our students are all individuals! auditory • Different learning styles and preferences. • “Tell me, and I will forget. Show me, and I may remember. Involve me, and I will understand" • Confucius • Kolb: Experiential Learning Cycle tactile visual
Feedback • Students want more feedback! • Can we provide instant individualised feedback for 250 students?
Continuity in teaching and learning • Our educators come from a variety of backgrounds. • Can we find a way to provide continuity of teaching?
Our challenge: To present basic scientific facts necessary to build a medical career on, in a way that is relevant, interesting and educational. Integration of eLearning, either materials or technology, need to be designed as part of the curriculum, just like other curriculum activities. KE9 Curriculum Integration Design 8
The aim of this project: • To develop a series of interactive Virtual Patients to reinforce the links between science and students' future medical careers.
VP Year 2: Curriculum Integration Design • needs and requirements of the various stakeholder groups were initially assessed: • liaison with curriculum management groups and students • consulting the GMC guidelines published in Tomorrow’s Doctors • review of available literature concerning interactive multimedia, learning theories, Human Computer Interaction (HCI) and medical education 10
VP Year 2: Curriculum Integration Design • Virtual Patients must be integrated into existing teaching • redevelopment of Endocrinology and Life Cycle Course (2008) specifically included incorporation of Virtual Patients • Virtual Patients must be aligned with Learning Outcomes 11
Lecture Lecture Symposium Lecture Lecture Symposium Lecture Lecture Practical Feedback Practical Practical VP Year 2: Curriculum Integration Design Direct access 08:00 Virtual Patient
Year 2: Six Virtual Patients developed • In Semester 3, Gastrointestinal Course: • Mr Andrew King with reflux disease • Mikey Botley with infectious diarrhoea • Mikey Botley with Hemolytic-Uremic Syndrome (HUS) https://www.som.soton.ac.uk/learn/bm/bmgastro/patient/ • In Semester 4, Endocrinology and the Life Cycle Course: • Mr and Mrs Andrews with infertility problems • Rachel Denver with type 1 diabetes • Mrs Jane Rice with type 2 diabetes https://www.som.soton.ac.uk/learn/bm/bmendocrinologylifecycle/patient/ 14
Clinical scenario laid out: 3D animations or videos interactive tasks basic science-related quizzes embedded learning materials links to lectures patient information sheets external websites Helps students to: test basic science understanding in a clinical context develop clinical skills by taking the role of a doctor interacting with a patient think from a patient’s perspective Year 2: Virtual Patient content 15
Year 2: expected level • integrative learning: anatomy, histology, physiology, pharmacology • more diagnostic • more discussion of treatment options • gateway into clinical Years 3 onwards 16
Interactive quizzes based on information presented links to other relevant teaching and learning resources 19
student inputs, answers to questions and summary medical notes are stored • enables students to resume a Virtual Patient at a later date student's completed work 20
recorded data are used to analyse students’ performance • offers individualised feedback for poorly understood topics
Year 2: Teacher access • teaching staff can also monitor Virtual Patient usage and students’ performance for each learning outcome associated to the case 22
Year 2: Evaluation Student evaluation ratings at end of Semester: Overall Virtual Patient ratings for Year 2 were 3.6 (2010) and 3.9 (2009) out of 5 User tracking data: usage numbers 23
VP Year 2: Evaluation Focus groups: • Students rated Virtual Patients highly, particularly liking the formative feedback they provided Informal discussions: • Semester coordinators reported that students who failed the semester were also frequently failing to use the Virtual Patients • engaged student understand that full use of course material enables an ability to understand the subject • especially since the Virtual Patients are linked to assessments! 24
VP Year 2: Evaluation Online questionnaires: • Pre-questionnaires (80 completed): >50% cited importance of clinically relevant and realistic case scenarios, 23% wanted VPs to be constructive and integrated • Post-questionnaires (35 completed): generally very positive. Eg. meeting expectations was rated above 4 (5 = very much); features most liked were clinically relevant and realistic clinical scenarios, and instant and individualised feedback • most wanted more Virtual Patients in their curriculum! • would use the Virtual Patients for assessment revision • recommend them to their fellow students 25
KE9 Curriculum Integration Design:our handy tips for getting your VP noticed! • Spread the word! (to students and teaching staff) • Incorporate the VPs into your timetable • Course coordinators provide a demonstration to students • Where to find the VPs • How to use the VPs • Benefits of using VPs • Outlining link with learning outcomes and assessments
Case history 3 years on: • Rachel is now 25 years old • Diagnosed with type 1 diabetes 3 years ago • Relatively well controlled • Studying for her finals What are the physiological changes causing Rachel’s initial symptoms? • Thirst • Excess peeing- reduce glucose and KBs • Vomiting & dehydration • Nausea & vomiting • Toxic ketoacid elimination, hyperglycemia • Breathlessness • Kussmaul’s respiration- deep breaths to decrease CO2 to raise pH KE9 Curriculum Integration Design:our handy tips for getting your VP noticed! • Key staff were reminded about VPs • Hormones in diabetic ketoacidosis • Increased catabolic hormones • Glucagon • Catecholamines • Cortisol • Growth hormone • Absolute or relative insulin deficiency
VP Year 2: Future work • For the remaining weeks of each course, ‘Paper-based Virtual Patients' enable weekly case-based learning to continue throughout Year 2 28
discussed in Friday feedback sessions as for online Virtual Patients will form framework for future Virtual Patients will require further funding 29
VP Year 2: Conclusion • a successful model of curriculum integration • ongoing refinement to ensure students make full use of Virtual Patients' potential 30
VP Year 2: Acknowledgements • Project leader: Dr Sunhea Choi • Content authors: Dr Myron Christodoulides, Dr Claire Smith, Dr Nicola Englyst, Dr Ying Cheong, Dr Kirsten Poore • Learning designer: Dr Sunhea Choi • eLearning Developer: Matt Hammerton • Multimedia Developer: Mimi Lee • Funding: Faculty of Medicine with match funding from NHS Education South Central. 31