OBJECTIVES/HYPOTHESIS: To determine the effectiveness of using of an otoscopy stimulator to teach medical students the primary principles of otoscopy in large group training sessions and improve their confidence in making otologic diagnoses. STUDY DESIGN: Cross-sectional survey design. METHODS: In March 2013, the Department of Otolaryngology-Head and Neck Surgery held a large-scale otoscopy simulator teaching session at the MaRS Innovation Center for 92 first and second year University of Toronto medical students. Following the training session, students were provided with an optional electronic, nine-question survey related to their experience with learning otoscopy using the simulators alone, and in comparison to traditional methods of teaching. RESULTS: Thirty-four medical students completed the survey. Ninety-one percent of the respondents indicated that the overall quality of the event was either very good or excellent. A total of 71% of respondents either agreed, or strongly agreed, that the otoscopy simulator training session improved their confidence in diagnosing pathologies of the ear. The majority (70%) of students indicated that the training session had stimulated their interest in otolaryngology-head and neck surgery as a medical specialty. CONCLUSIONS: Organizing large-group otoscopy simulator training sessions is one method whereby students can become familiar with a wide variety of pathologies of the ear and improve both their diagnostic accuracy and their confidence in making otologic diagnoses. LEVEL OF EVIDENCE: NA
OBJECTIVES/HYPOTHESIS: To determine the effectiveness of using of an otoscopy stimulator to teach medical students the primary principles of otoscopy in large group training sessions and improve their confidence in making otologic diagnoses. STUDY DESIGN: Cross-sectional survey design. METHODS: In March 2013, the Department of Otolaryngology-Head and Neck Surgery held a large-scale otoscopy simulator teaching session at the MaRS Innovation Center for 92 first and second year University of Toronto medical students. Following the training session, students were provided with an optional electronic, nine-question survey related to their experience with learning otoscopy using the simulators alone, and in comparison to traditional methods of teaching. RESULTS: Thirty-four medical students completed the survey. Ninety-one percent of the respondents indicated that the overall quality of the event was either very good or excellent. A total of 71% of respondents either agreed, or strongly agreed, that the otoscopy simulator training session improved their confidence in diagnosing pathologies of the ear. The majority (70%) of students indicated that the training session had stimulated their interest in otolaryngology-head and neck surgery as a medical specialty. CONCLUSIONS: Organizing large-group otoscopy simulator training sessions is one method whereby students can become familiar with a wide variety of pathologies of the ear and improve both their diagnostic accuracy and their confidence in making otologic diagnoses. LEVEL OF EVIDENCE: NA
Authors: Kotaro Tsutsumi; Khodayar Goshtasbi; Adwight Risbud; Pooya Khosravi; Jonathan C Pang; Harrison W Lin; Hamid R Djalilian; Mehdi Abouzari Journal: Otol Neurotol Date: 2021-10-01 Impact factor: 2.619
Authors: Brandon Wickens; Jordan Lewis; David P Morris; Murad Husein; Hanif M Ladak; Sumit K Agrawal Journal: J Otolaryngol Head Neck Surg Date: 2015-02-24
Authors: Caroline R Paul; Alanna D Higgins Joyce; Gary L Beck Dallaghan; Meg G Keeley; Corinne Lehmann; Suzanne M Schmidt; Kari A Simonsen; Cynthia Christy Journal: BMC Med Educ Date: 2020-11-16 Impact factor: 2.463