Stereoscopic three-dimensional visualization: interest for neuroanatomy teaching in medical school

Surg Radiol Anat. 2020 Jun;42(6):719-727. doi: 10.1007/s00276-020-02442-6. Epub 2020 Feb 29.

Abstract

Purpose: The anatomy of both the brain and the skull is particularly difficult to learn and to teach. Since their anatomical structures are numerous and gathered in a complex tridimensional (3D) architecture, classic schematical drawing or photography in two dimensions (2D) has difficulties in providing a clear, simple, and accurate message. Advances in photography and computer sciences have led to develop stereoscopic 3D visualization, firstly for entertainment then for education. In the present study, we report our experience of stereoscopic 3D lecture for neuroanatomy teaching to early medical school students.

Methods: High-resolution specific pictures were taken on various specimen dissections in the Anatomy Laboratory of the University of Lyon, France. Selected stereoscopic 3D views were displayed on a large dedicated screen using a doubled video projector. A 2-h stereoscopic neuroanatomy lecture was given by two neuroanatomists to third-year medicine students who wore passive 3D glasses. Setting up lasted 30 min and involved four people. The feedback from students was collected and analyzed.

Results: Among the 483 students who have attended the stereoscopic 3D lecture, 195 gave feedback, and all (100%) were satisfied. Among these, 190 (97.5%) reported a better knowledge transfer of brain anatomy and its 3D architecture. Furthermore, 167 (86.1%) students felt it could change their further clinical practice, 179 (91.8%) thought it could enhance their results in forthcoming anatomy examinations, and 150 (76.9%) believed such a 3D lecture might allow them to become better physicians. This 3D anatomy lecture was graded 8.9/10 a mean against 5.9/10 for previous classical 2D lectures.

Discussion-conclusion: The stereoscopic 3D teaching of neuroanatomy made medical students enthusiastic involving digital technologies. It could improve their anatomical knowledge and test scores, as well as their clinical competences. Depending on university means and the commitment of teachers, this new tool should be extended to other anatomical fields. However, its setting up requires resources from faculties and its impact on clinical competencies needs to be objectively assessed.

Keywords: Anatomy; Pedagogy; Stereoscopy; Teaching; Tridimensional.

MeSH terms

  • Brain / anatomy & histology
  • Brain / diagnostic imaging
  • Dissection
  • Education, Medical, Undergraduate / methods*
  • France
  • Humans
  • Imaging, Three-Dimensional / instrumentation
  • Imaging, Three-Dimensional / methods*
  • Models, Anatomic*
  • Neuroanatomy / education*
  • Photography / instrumentation
  • Photography / methods
  • Schools, Medical / statistics & numerical data
  • Skull / anatomy & histology
  • Skull / diagnostic imaging
  • Students, Medical / statistics & numerical data
  • Surveys and Questionnaires / statistics & numerical data
  • Teaching*