Evaluation of the effectiveness of the presentation of virtual histology slides by students during classes. Are there any differences in approach between dentistry and general medicine students?

INTRODUCTION Virtual microscopy, used as a method to teach histology, has many undeniable advantages. However, the usefulness of this method is somewhat limited by the difficulties students face in finding their way through huge amounts of digital data, compounded by decreased interaction between students and teachers. We describe the results of a recent pilot project which combined the modern teaching methods of active learning, where students themselves present histological slides and make use of the virtual microscopy system. METHODS Students' responses to a structured questionnaire and examination results were evaluated. RESULTS We found that a combination of both electronic materials and textbooks was commonly used by students to prepare for practical teaching sessions, with electronic resources being used regularly by the majority of students. No statistically relevant differences were found between the approaches of dentistry vs general medicine students. Cooperation between students' groups during the preparation for individual presentations was seen to be beneficial by a majority of dentistry students; they reported that the introduction of student-led presentations improved their quality of preparation for practical lessons, as well as increasing their participation and activity level in the lessons themselves. These different approaches and motivations between students of dentistry and general medicine are reflected in the test results where dentistry students are more successful. CONCLUSION We confirm that there are differences in motivation, approaches and examination results between both groups of students, which should be taken into account and which could lead to differentiation of future curricula for both study courses.

[1]  M. Hortsch,et al.  Preference of Interactive Electronic Versus Traditional Learning Resources by University of Michigan Medical Students during the First Year Histology Component , 2013 .

[2]  Alka Harish Hande,et al.  Impact of virtual microscopy with conventional microscopy on student learning in dental histology , 2017, Dental research journal.

[3]  Dalal A ALQahtani,et al.  Measuring dental students’ preference: A comparison of light microscopy and virtual microscopy as teaching tools in oral histology and pathology , 2016, The Saudi dental journal.

[4]  Joseph B. Cuseo The Empirical Case against Large Class Size: Adverse Effects on the Teaching, Learning, and Retention of First-Year Students. , 2007 .

[5]  Antoni Alegre-Martinez,et al.  Results of the implementation of a virtual microscope in a course of histology , 2016 .

[6]  James Duncan,et al.  Integrated approach to teaching and testing in histology with real and virtual imaging , 2002, The Anatomical record.

[7]  R. Ogilvie,et al.  Trends in histology laboratory teaching in United States medical schools. , 2006, Anatomical record. Part B, New anatomist.

[8]  D. Herbert,et al.  Transition of a dental histology course from light to virtual microscopy. , 2009, Journal of dental education.

[9]  John Lough,et al.  Complete and rapid switch from light microscopy to virtual microscopy for teaching medical histology. , 2005, Anatomical record. Part B, New anatomist.

[10]  Antonio Martínez,et al.  Virtual microscopy in the undergraduate teaching of pathology , 2015, Journal of pathology informatics.

[11]  Y. Lou,et al.  Small Group and Individual Learning with Technology: A Meta-Analysis , 2001 .

[12]  Paul C Mills,et al.  Teaching histology to first-year veterinary science students using virtual microscopy and traditional microscopy: a comparison of student responses. , 2007, Journal of veterinary medical education.

[13]  Sanjay G Patel,et al.  Design and implementation of a web-based, database-driven histology atlas: technology at work. , 2006, Anatomical record. Part B, New anatomist.

[14]  Anitta Mahonen,et al.  Student-focused virtual histology education: Do new scenarios and digital technology matter? , 2017 .

[15]  Miguel Alaminos,et al.  Motivational component profiles in university students learning histology: a comparative study between genders and different health science curricula , 2014, BMC medical education.

[16]  Marc M Triola,et al.  Enhanced virtual microscopy for collaborative education , 2011, BMC medical education.

[17]  F. Paulsen,et al.  Virtual microscopy-The future of teaching histology in the medical curriculum? , 2010, Annals of anatomy = Anatomischer Anzeiger : official organ of the Anatomische Gesellschaft.

[18]  Peter Schmidt Digital learning programs - competition for the classical microscope? , 2013, GMS Zeitschrift fur medizinische Ausbildung.

[19]  R. Coleman Can histology and pathology be taught without microscopes? The advantages and disadvantages of virtual histology. , 2009, Acta histochemica.

[20]  M. Hortsch,et al.  Learning histology - dental and medical students' study strategies. , 2015, European journal of dental education : official journal of the Association for Dental Education in Europe.

[21]  L. Theobalt THE EMPIRICAL CASE AGAINST LARGE CLASS SIZE: ADVERSE EFFECTS ON THE TEACHING, LEARNING, AND RETENTION OF FIRST YEAR STUDENTS , 2010 .

[22]  A. Abdollahi,et al.  Comparing the Efficacy of Virtual and Conventional Methods in Teaching Practical Pathology to Medical Students , 2018, Iranian journal of pathology.

[23]  F. Fonseca,et al.  Transition from glass to digital slide microscopy in the teaching of oral pathology in a Brazilian dental school , 2014, Medicina oral, patologia oral y cirugia bucal.