TY - JOUR
T1 - Integration of clinical and basic sciences in concept maps
T2 - A mixed-method study on teacher learning
AU - Vink, Sylvia C.
AU - Van Tartwijk, Jan
AU - Bolk, Jan
AU - Verloop, Nico
PY - 2015/2/18
Y1 - 2015/2/18
N2 - Background: The explication of relations between clinical and basic sciences can help vertical integration in medical curricula. Concept mapping might be a useful technique for this explication. Little is known about teachers' ability regarding the articulation of integration. We examined therefore which factors affect the learning of groups of clinicians and basic scientists on different expertise levels who learn to articulate the integration of clinical and basic sciences in concept maps. Methods: After a pilot for fine-tuning group size and instructions, seven groups of expert clinicians and basic scientists and seven groups of residents with a similar disciplinary composition constructed concept maps about a clinical problem that fit their specializations. Draft and final concepts maps were compared on elaborateness and articulated integration by means of t-tests. Participants completed a questionnaire on motivation and their evaluation of the instructions. ANOVA's were run to compare experts' and residents' views. Data from video tapes and notes were qualitatively analyzed. Finally, the three data sources were interpreted in coherence by using Pearson's correlations and qualitative interpretation. Results: Residents outshone experts as regards learning to articulate integration as comparison of the draft and final versions showed. Experts were more motivated and positive about the concept mapping procedure and instructions, but this did not correlate with the extent of integration fond in the concept maps. The groups differed as to communication: residents interacted from the start (asking each other for clarification), whereas overall experts only started interaction when they had to make joint decisions. Conclusions: Our results suggest that articulation of integration can be learned, but this learning is not related to participants' motivation or their views on the instructions. Decision making and interaction, however, do relate to the articulation of integration and this suggests that teacher learning programs for designing integrated educational programmes should incorporate co-construction tasks. Expertise level turned out to be decisive for both the level of articulation of integration, the ability to improve the articulated integration and the cooperation pattern.
AB - Background: The explication of relations between clinical and basic sciences can help vertical integration in medical curricula. Concept mapping might be a useful technique for this explication. Little is known about teachers' ability regarding the articulation of integration. We examined therefore which factors affect the learning of groups of clinicians and basic scientists on different expertise levels who learn to articulate the integration of clinical and basic sciences in concept maps. Methods: After a pilot for fine-tuning group size and instructions, seven groups of expert clinicians and basic scientists and seven groups of residents with a similar disciplinary composition constructed concept maps about a clinical problem that fit their specializations. Draft and final concepts maps were compared on elaborateness and articulated integration by means of t-tests. Participants completed a questionnaire on motivation and their evaluation of the instructions. ANOVA's were run to compare experts' and residents' views. Data from video tapes and notes were qualitatively analyzed. Finally, the three data sources were interpreted in coherence by using Pearson's correlations and qualitative interpretation. Results: Residents outshone experts as regards learning to articulate integration as comparison of the draft and final versions showed. Experts were more motivated and positive about the concept mapping procedure and instructions, but this did not correlate with the extent of integration fond in the concept maps. The groups differed as to communication: residents interacted from the start (asking each other for clarification), whereas overall experts only started interaction when they had to make joint decisions. Conclusions: Our results suggest that articulation of integration can be learned, but this learning is not related to participants' motivation or their views on the instructions. Decision making and interaction, however, do relate to the articulation of integration and this suggests that teacher learning programs for designing integrated educational programmes should incorporate co-construction tasks. Expertise level turned out to be decisive for both the level of articulation of integration, the ability to improve the articulated integration and the cooperation pattern.
KW - Analysis of content
KW - Clinical knowledge
KW - Clinical reasoning
KW - Concept mapping
KW - Cooperative learning
KW - Curriculum development
KW - Design-based research
KW - Educational intervention
KW - Instructional design
KW - Teacher learning
UR - http://www.scopus.com/inward/record.url?scp=84928232120&partnerID=8YFLogxK
U2 - 10.1186/s12909-015-0299-0
DO - 10.1186/s12909-015-0299-0
M3 - Article
AN - SCOPUS:84928232120
SN - 1472-6920
VL - 15
JO - BMC Medical Education
JF - BMC Medical Education
M1 - 20
ER -