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A Doctoral Curriculum in Transition Shoumita Dasgupta, Ph.D. A Case Study of Boston University’s Graduate Medical Sciences Curriculum Reform.

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Presentation on theme: "A Doctoral Curriculum in Transition Shoumita Dasgupta, Ph.D. A Case Study of Boston University’s Graduate Medical Sciences Curriculum Reform."— Presentation transcript:

1 A Doctoral Curriculum in Transition Shoumita Dasgupta, Ph.D. A Case Study of Boston University’s Graduate Medical Sciences Curriculum Reform

2 The initial context

3 Prospective students Anatomy and Neurobiology Biochemistry BiophysicsOral Biology Pathology Pharmacology MicrobiologyPhysiology D EPARTMENTAL P ROGRAMS

4 Prospective students Anatomy and Neurobiology Biochemistry BiophysicsOral Biology Pathology Pharmacology MicrobiologyPhysiology D EPARTMENTAL P ROGRAMS I NTERDEPARTMENTAL P ROGRAMS Behavioral Neuroscience Biomedical Neuroscience Cell and Molecular Biology Immunology Training Program Medical Nutrition Sciences Molecular Medicine Genetics and Genomics

5 Curricular overlap: Biochemistry Anatomy and Neurobiology Biochemistry BiophysicsOral Biology Pathology Pharmacology MicrobiologyPhysiology D EPARTMENTAL P ROGRAMS I NTERDEPARTMENTAL P ROGRAMS Behavioral Neuroscience Biomedical Neuroscience Cell and Molecular Biology Immunology Training Program Medical Nutrition Sciences Molecular Medicine Genetics and Genomics

6 Curricular overlap: Cell Biology Anatomy and Neurobiology Biochemistry BiophysicsOral Biology Pathology Pharmacology Microbiology Physiology D EPARTMENTAL P ROGRAMS I NTERDEPARTMENTAL P ROGRAMS Behavioral Neuroscience Biomedical Neuroscience Cell and Molecular Biology Immunology Training Program Medical Nutrition Sciences Molecular Medicine Genetics and Genomics

7 Curricular overlap: Molecular Biology Anatomy and Neurobiology Biochemistry BiophysicsOral Biology Pathology Pharmacology MicrobiologyPhysiology D EPARTMENTAL P ROGRAMS I NTERDEPARTMENTAL P ROGRAMS Behavioral Neuroscience Biomedical Neuroscience Cell and Molecular Biology Immunology Training Program Medical Nutrition Sciences Molecular Medicine Genetics and Genomics

8 Curricular overlap: Genetics and Genomics Anatomy and Neurobiology Biochemistry Biophysics Oral Biology Pathology Pharmacology MicrobiologyPhysiology D EPARTMENTAL P ROGRAMS I NTERDEPARTMENTAL P ROGRAMS Behavioral Neuroscience Biomedical Neuroscience Cell and Molecular Biology Immunology Training Program Medical Nutrition Sciences Molecular Medicine Genetics and Genomics

9 Peaceful coexistence

10 Historical clutter No room perceived in old curricula for new courses

11 Convergent evolution Old courses added similar new topics.

12 Adopting a new paradigm

13 Leading Change 1.Create urgency. Document students choosing other graduate schools based on presence of integrated curriculum. Identify areas of curricular redundancy. Kotter, Harvard Business School, Our Iceberg is Melting

14 Leading Change 1.Create urgency. 2.Form a powerful coalition. Kotter, Harvard Business School, Our Iceberg is Melting

15 Stakeholders from programs affected by curricular overlap Anatomy and Neurobiology Biochemistry BiophysicsOral Biology Pathology Pharmacology MicrobiologyPhysiology D EPARTMENTAL P ROGRAMS I NTERDEPARTMENTAL P ROGRAMS Behavioral Neuroscience Biomedical Neuroscience Cell and Molecular Biology Immunology Training Program Medical Nutrition Sciences Molecular Medicine Genetics and Genomics

16 Leading Change 1.Create urgency. 2.Form a powerful coalition. 3.Create a vision for change. Charge Integrated Curriculum Committee to determine core values for curricular reform. Kotter, Harvard Business School, Our Iceberg is Melting

17 Leading Change 1.Create urgency. 2.Form a powerful coalition. 3.Create a vision for change. 4.Communicate the vision. Reach out to key stakeholders (e.g. Departmental chairs & Program directors) individually. Create opportunities to share the curriculum vision publically through retreats, faculty meetings, and web sites. Kotter, Harvard Business School, Our Iceberg is Melting

18 Leading Change 1.Create urgency. 2.Form a powerful coalition. 3.Create a vision for change. 4.Communicate the vision. 5.Remove obstacles. Open dialog to help stakeholders embrace change. Kotter, Harvard Business School, Our Iceberg is Melting

19 Leading Change 1.Create urgency. 2.Form a powerful coalition. 3.Create a vision for change. 4.Communicate the vision. 5.Remove obstacles. 6.Create short term wins. Recognition for incremental achievements such as creation of curriculum outline, identification of module directors, completion of first year, etc. Kotter, Harvard Business School, Our Iceberg is Melting

20 Leading Change 1.Create urgency. 2.Form a powerful coalition. 3.Create a vision for change. 4.Communicate the vision. 5.Remove obstacles. 6.Create short term wins. 7.Build on the change. Empower module directors to begin detailed course design. Kotter, Harvard Business School, Our Iceberg is Melting

21 Leading Change Kotter, Harvard Business School, Our Iceberg is Melting 1.Create urgency. 2.Form a powerful coalition. 3.Create a vision for change. 4.Communicate the vision. 5.Remove obstacles. 6.Create short term wins. 7.Build on the change. 8.Anchor the changes in institutional culture. Move to formally approve courses. Create curriculum oversight body in FiBS Steering Committee Implement standard student and peer course eval processes.

22 Foundations in Biomedical Sciences: Why should we move to an integrated curriculum? Encourage students to think in a rigorous and interdisciplinary fashion Coordinate content across courses and programs Reduce redundancy in course content Decrease lecture hours Promote collegiality among participating doctoral students Compete with peer institutions to recruit prospective students

23 Foundations in Biomedical Sciences: Key features of the integrated curriculum A critical thinking component is integrated into each module. (e.g. paper discussions, problem-solving sessions, bioinformatics workshops, etc) Critical thinking activities are carried out in small (6-8 members + 1 facilitator) break-out groups Each module has a separate course number, exam(s), and grade. Each module has a course director who sits on a curriculum steering committee with the other module course directors.

24 Module I: Protein Structure, Catalysis, and Interactions Module I: Protein Structure, Catalysis, and Interactions Module II: Structure and Function of the Genome Module III: Architecture and Dynamics of the Cell Module IV: Mechanisms of Cell Communication Foundations in Biomedical Sciences: A Core Curriculum for GMS Doctoral Students Program-specific course(s): 4-6 credits Program-specific course(s): 4-8 credits 2 credits 2-4 credits Translational Genetics and Genomics Molecular Metabolism Physiology of Specialized Cells Translational Genetics and Genomics Molecular Metabolism Physiology of Specialized Cells Optional electives: Fall Semester Spring Semester

25 Foundations in Biomedical Sciences: Key features of the integrated curriculum Students are able to take program-specific courses beginning with their first semester of study. A grant writing course is being piloted for the second year of doctoral study. Formalized, anonymous course evaluations are standard practice for all modules This structure provides more opportunities for students to teach Individual programs can choose to opt into this curriculum

26 Foundations in Biomedical Sciences: Feedback from the first implementation “Overall I really enjoyed the course. It caused us to work really hard and forced us to apply the information presented to us to different problems that we were given. It was challenging, yes, but I feel as though I have learned a lot from it and I hope this class continues for years to come.” “Comparing this module to last year's course, I think this is a huge improvement. It was very well-organized, the lectures flowed together very smoothly, and the lecturers themselves were excellent at teaching their subjects…Thank you to all of the professors and the course directors for an excellent job.”

27 Foundations in Biomedical Sciences: Feedback from the first implementation “I thoroughly enjoyed both the pace and format of this module, especially using last year’s curriculum as a reference point.” “I'd like to stress that I enjoyed each module, I thought each was well run and was successful in giving first year students a vital knowledge base that truly is interdisciplinary.” “I'd like to thank every faculty member and TA associated with this course. It has made me think in a different way when approaching my work at the bench, and is making me a more complete researcher.”

28 The new context

29 Prospective students Anatomy and Neurobiology Biochemistry BiophysicsOral Biology Pathology Pharmacology MicrobiologyPhysiology D EPARTMENTAL P ROGRAMS Program in Biomedical Sciences Students Labs I NTERDEPARTMENTAL P ROGRAMS Behavioral Neuroscience Biomedical Neuroscience Cell and Molecular Biology Immunology Training Program Medical Nutrition Sciences Molecular Medicine Genetics and Genomics

30 Acknowledgements Boston University, Division of Graduate Medical Sciences Linda Hyman, Associate Provost Karen Symes, Foundations Co-director GMS students GMS Graduate Program Directors, Chairs, and Representatives

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