BACKGROUND: Bedside ultrasonography has an increasing role in medicine yet medical students have limited exposure. Although countless hours are devoted to plain radiograph and electrocardiogram (ECG) interpretation, ultrasound is frequently glossed over. Yet this imaging modality could enhance students' understanding of anatomy, physiology and pathology, and may increase their integration into hospital teams. We aimed to investigate whether a peer-assisted ultrasound course has a place within the undergraduate medical curriculum. We describe the implementation of a course and discuss its acceptability and utility in student education. Bedside ultrasonography has an increasing role in medicine yet medical students have limited exposure METHODS: Following consultation with the medical school, an improved ultrasonography course was developed with expert guidance from an ultrasonographer and with new equipment. Sessions involved peer-tutors teaching ultrasonography techniques to medical students during emergency medicine placements. Tutees completed questionnaires to assess the quality and perceived benefits of the course and of learning ultrasonography. Both quantitative and thematic analyses of the responses were conducted by the authors. RESULTS: Over a period of 8 months, 105 medical students received teaching across four sessions. A total of 103 students (98%) returned questionnaires on their evaluation of the course and tutors, and on their confidence in using ultrasound. Ninety-eight per cent felt that the teaching was well delivered, 100 per cent felt that their knowledge of ultrasound had improved and 100 per cent would recommend the course. CONCLUSIONS: The peer-assisted ultrasound course described here enabled the majority of students to feel confident gaining elementary ultrasound views, and performing abdominal aneurysm screening and trauma assessments: techniques that they could hopefully put to use during their placements. The peer-assisted model has an acceptable role in teaching emerging clinical skills to medical students.
BACKGROUND: Bedside ultrasonography has an increasing role in medicine yet medical students have limited exposure. Although countless hours are devoted to plain radiograph and electrocardiogram (ECG) interpretation, ultrasound is frequently glossed over. Yet this imaging modality could enhance students' understanding of anatomy, physiology and pathology, and may increase their integration into hospital teams. We aimed to investigate whether a peer-assisted ultrasound course has a place within the undergraduate medical curriculum. We describe the implementation of a course and discuss its acceptability and utility in student education. Bedside ultrasonography has an increasing role in medicine yet medical students have limited exposure METHODS: Following consultation with the medical school, an improved ultrasonography course was developed with expert guidance from an ultrasonographer and with new equipment. Sessions involved peer-tutors teaching ultrasonography techniques to medical students during emergency medicine placements. Tutees completed questionnaires to assess the quality and perceived benefits of the course and of learning ultrasonography. Both quantitative and thematic analyses of the responses were conducted by the authors. RESULTS: Over a period of 8 months, 105 medical students received teaching across four sessions. A total of 103 students (98%) returned questionnaires on their evaluation of the course and tutors, and on their confidence in using ultrasound. Ninety-eight per cent felt that the teaching was well delivered, 100 per cent felt that their knowledge of ultrasound had improved and 100 per cent would recommend the course. CONCLUSIONS: The peer-assisted ultrasound course described here enabled the majority of students to feel confident gaining elementary ultrasound views, and performing abdominal aneurysm screening and trauma assessments: techniques that they could hopefully put to use during their placements. The peer-assisted model has an acceptable role in teaching emerging clinical skills to medical students.
Authors: Cassian Cremerius; Gertraud Gradl-Dietsch; Frank J P Beeres; Björn -Christian Link; Lea Hitpaß; Sven Nebelung; Klemens Horst; Christian David Weber; Carl Neuerburg; Daphne Eschbach; Christopher Bliemel; Matthias Knobe Journal: Eur J Trauma Emerg Surg Date: 2020-01-10 Impact factor: 3.693
Authors: Connor Byrne; Nico Kahl; Brian Knight; Monica Lee; Stephanie Morley; Shadi Lahham; Roland Bingisser; Maxwell Thompson; Inna Shniter; Victoria Valdes; John C Fox Journal: J Med Ultrasound Date: 2019-02-26
Authors: Richard A Hoppmann; Jeanette Mladenovic; Lawrence Melniker; Radu Badea; Michael Blaivas; Miguel Montorfano; Alfred Abuhamad; Vicki Noble; Arif Hussain; Gregor Prosen; Tomás Villen; Gabriele Via; Ramon Nogue; Craig Goodmurphy; Marcus Bastos; G Stephen Nace; Giovanni Volpicelli; Richard J Wakefield; Steve Wilson; Anjali Bhagra; Jongyeol Kim; David Bahner; Chris Fox; Ruth Riley; Peter Steinmetz; Bret P Nelson; John Pellerito; Levon N Nazarian; L Britt Wilson; Irene W Y Ma; David Amponsah; Keith R Barron; Renee K Dversdal; Mike Wagner; Anthony J Dean; David Tierney; James W Tsung; Paula Nocera; José Pazeli; Rachel Liu; Susanna Price; Luca Neri; Barbara Piccirillo; Adi Osman; Vaughan Lee; Nitha Naqvi; Tomislav Petrovic; Paul Bornemann; Maxime Valois; Jean-Francoise Lanctot; Robert Haddad; Deepak Govil; Laura A Hurtado; Vi Am Dinh; Robert M DePhilip; Beatrice Hoffmann; Resa E Lewiss; Nayana A Parange; Akira Nishisaki; Stephanie J Doniger; Paul Dallas; Kevin Bergman; J Oscar Barahona; Ximena Wortsman; R Stephen Smith; Craig A Sisson; James Palma; Mike Mallin; Liju Ahmed; Hassan Mustafa Journal: Ultrasound J Date: 2022-07-27