Semin Speech Lang 2023; 44(05): 287-302
DOI: 10.1055/s-0043-1776354
Research Article Adult

Students' Perception of a Virtual Dissection Laboratory in Undergraduate Anatomy and Physiology of Speech and Hearing: A Focus Group Study

1   School of Communication Science and Disorders, Florida State University, Tallahassee, Florida
,
Erika Jones
2   Division of Communication Disorders, University of Wyoming, Laramie, Wyoming
,
Richelle Dietz
2   Division of Communication Disorders, University of Wyoming, Laramie, Wyoming
,
Katelyn J. Kotlarek
2   Division of Communication Disorders, University of Wyoming, Laramie, Wyoming
› Author Affiliations
Funding K.J.K. received funding for this work through an ASHA Advancing Academic Careers (AARC) Award as well as grant funds for the creation of an open lab manual for her course through the University of Wyoming Libraries; Alt-Textbook Grant Proposal.
The University of Wyoming, College of Health Sciences, Division of Communication Disorders purchased the Anatomage virtual dissection table and accompanying materials.

Abstract

Hands-on laboratory experience that allows for manipulation of realistic and relevant materials in course curricula has been shown to improve students' learning, understanding, and critical thinking skills. The purpose of this study was to gain insight into the experiences of students who engaged in laboratory coursework using a virtual dissection (VD) table as part of an undergraduate course in anatomy and physiology of speech and hearing. Undergraduate students enrolled in an anatomy and physiology of speech and hearing course at a single university for the fall 2021 semester consented to participate. Nine students, divided into two focus groups, were encouraged to describe their experiences and perspectives about the VD table and corresponding laboratory assignments. Following verbatim transcription of the data, the authors conducted a thematic analysis. Five themes emerged from the body of data: (1) using the VD table, (2) completing the VD lab assignments, (3) preparation for laboratory sessions, (4) suggested modifications, and (5) enriched learning. Students believed using the VD table aided in a better understanding of course material than traditional methods. Moreover, they surmised that this method of learning, particularly for speech-language pathologists, may be superior to learning through models and cadavers.

Data Availability Statement

The datasets generated during and/or analyzed during the current study are not publicly available due to privacy and confidentiality issues related to qualitative data. They are available from the corresponding author on reasonable request.




Publication History

Article published online:
08 November 2023

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  • References

  • Adler, R. K. (2005). Coursework in anatomy and physiology and neuroanatomy and physiology: What is current and where should we go? Perspectives of Issues Higher Education, 8(1), 3-8
  • Affoo, R. H., Bruner, J. L., Dietsch, A. M., Nellenbach, C. E., Jones, T. M., & Lehman, M. E. (2020). The impact of active learning in a speech-language pathology swallowing and dysphagia course. Teaching and Learning in Communication Sciences & Disorders, 4(2) (advance online publication) doi: 10.30707/TLCSD4.2/POPG6689
  • Afsharpour, S., Gonsalves, A., Hosek, R., & Partin, E. (2018). Analysis of immediate student outcomes following a change in gross anatomy laboratory teaching methodology. The Journal of Chiropractic Education, 32(2), 98-106
  • Alasmari, W. A. (2021). Medical students' feedback of applying the virtual dissection table (Anatomage) in learning anatomy: a cross-sectional descriptive study. Advances in Medical Education and Practice, 12, 1303-1307
  • Anatomage. (2018). Anatomage Table. Anatomage. Accessed October 13, 2023 at: https://www.anatomage.com/table/
  • Allsop, J., Young, S. J., Nelson, E. J., Piatt, J., & Knapp, D. (2020). Examining the benefits associated with implementing an active learning classroom coming undergraduate students. International Journal on Teaching and Learning in Higher Education, 32(3), 418-426
  • Baepler, P., & Walker, J. (2014). Active learning classrooms and educational alliances: Changing relationships to improve learning. New Directions for Teaching and Learning, 137, 27-40
  • Braun, V., & Clarke, V. (2006). Using the thematic analysis in psychology. Qualitative Research in Psychology, 3, 77-101
  • Chickering, A. W., & Gamson, Z. F. (1987). Seven principles for good practice in undergraduate education. AAHE Bulletin, 39, 2-6
  • Colorafi, K. J., & Evans, B. (2016). Qualitative descriptive methods in health science research. HERD, 9(4), 16-25
  • Darras, K. E., de Bruin, A. B. H., Nicolaou, S., Dahlström, N., Persson, A., van Merriënboer, J., & Forster, B. B. (2018). Is there a superior simulator for human anatomy education? How virtual dissection can overcome the anatomic and pedagogic limitations of cadaveric dissection. Medical Teacher, 40(7), 752-753
  • Ekwueme, C. O., Ekon, E. E., & Ezenwa-Nebife, D. C. (2015). The impact of hands-on approach on student academic performance in basic science and mathematics. Higher Education Studies, 5(6), 47-51
  • Estai, M., & Bunt, S. (2016). Best teaching practices in anatomy education: a critical review. Annals of Anatomy, 208, 151-157
  • Kotlarek, K. J. (2023, June 19). SPPA 3265 - Virtual Dissection Laboratory assignments. University of Wyoming Libraries. doi: 10.15786/23541486
  • Kotlarek, K. J., & Mandulak, K. C. (2023). Impact of the COVID-19 pandemic on undergraduate students studying anatomy and physiology of speech and hearing: A pilot investigation. Teaching and Learning in Communication Sciences & Disorders, 7(1), 1-17
  • Lasry, N., Charles, E., Whittaker, C., Dedic, H., & Rosenfield, S. (2013). Changing classroom designs: easy; changing instructors' pedagogies: not so easy…. In: Am. Institute of Physics Conference Proceedings, 1513, 238
  • Laws, P., Sokoloff, D., & Thornton, R. (1999). Promoting active learning using the results of physics education research. UniServe Science News, 13, 14-19
  • Lincoln, Y. S., & Guba, E. G. (1985). Naturalistic Inquiry. Sage Publications, Newbury Park, CA
  • Lizzio, A., & Wilson, K. (2004). Action learning in higher education: an investigation of its potential to develop professional capability. Studies in Higher Education, 29(4), 469-488
  • Mandouit, L. (2018). Using student feedback to improve teaching. Educational Action Research, 26(5), 755-769
  • Martin, K., Bessell, N. J., & Scholten, I. (2014). The perceived importance of anatomy and neuroanatomy in the practice of speech-language pathology. Anatomical Sciences Education, 7, 28-37
  • Moravec, M., Williams, A., Aguilar-Roca, N., & O'Dowd, D. K. (2010). Learn before lecture: a strategy that improves learning outcomes in a large introductory biology class. CBE Life Sciences Education, 9(4), 473-481
  • Redish, E., Saul, J., & Steinberg, R. (1997). On the effectiveness of active-engagement microcomputer-based laboratories. American Journal of Physics, 65(1), 45-54
  • Ruckert, E., McDonald, P. L., Birkmeier, M., Walker, B., Cotton, L., Lyons, L. B., Straker, H. O., & Plack, M. M. (2014). Using technology to promote active and social learning experiences in health professions education. Online Learning : the Official Journal of the Online Learning Consortium, 18(4). doi: https://eric.ed.gov/?id=EJ1048391
  • Sandelowski, M. (2010). What's in a name? Qualitative description revisited. Research in Nursing & Health, 33, 77-84
  • Thomas, E., & Magilvy, J. K. (2011). Qualitative rigor or research validity in qualitative research. Journal for Specialists in Pediatric Nursing, 16(2), 151-155.
  • VERBI Software. (2020). MAXQDA 2020 [computer software]. Berlin, Germany: VERBI Software. (Available from maxqda.com )