BACKGROUND: Simulation training is a revolutionary addition to health care education. However, developing simulation-based training programs is often dictated by those simulators that are commercially available. Curriculum development requires deliberate planning and a standardized approach, including a 'general needs assessment'. OBJECTIVES: The aim of this study was to perform a national general needs assessment to identify technical procedures in pulmonary medicine that should be integrated in a simulation-based curriculum. METHODS: A three-round Delphi process was initiated among 62 key opinion leaders. Round 1 was an open-ended question to identify technical procedures pulmonologists should learn. Round 2 was a survey using a newly developed needs assessment formula to explore the frequency of procedures, number of operators, risk or discomfort when performed by an inexperienced doctor, and feasibility of simulation-based training. In round 3, results were reviewed and ranked according to priority. RESULTS: The response rates for the three rounds were 74, 63, and 60%, respectively. The Delphi process reduced the 30 procedures identified in round 1 to 11 prioritized technical procedures in round 3. These were: flexible bronchoscopy, pleurocentesis, endobronchial ultrasound, endoscopic ultrasound-guided fine-needle aspiration, noninvasive ventilation treatment, transthoracic biopsy of pleural or lung tumor, focused ultrasound scanning of the lungs, chest tube insertion, needle biopsy of visible lymph node/tumor of the skin, focused ultrasound scanning of the heart, and thoracoscopy. CONCLUSION: We performed a Delphi study using a needs assessment formula, which identified 11 technical procedures that are highly suitable for simulation-based training. Medical educators can use this list as a resource in planning simulation-based training programs for trainees in pulmonary medicine.
BACKGROUND: Simulation training is a revolutionary addition to health care education. However, developing simulation-based training programs is often dictated by those simulators that are commercially available. Curriculum development requires deliberate planning and a standardized approach, including a 'general needs assessment'. OBJECTIVES: The aim of this study was to perform a national general needs assessment to identify technical procedures in pulmonary medicine that should be integrated in a simulation-based curriculum. METHODS: A three-round Delphi process was initiated among 62 key opinion leaders. Round 1 was an open-ended question to identify technical procedures pulmonologists should learn. Round 2 was a survey using a newly developed needs assessment formula to explore the frequency of procedures, number of operators, risk or discomfort when performed by an inexperienced doctor, and feasibility of simulation-based training. In round 3, results were reviewed and ranked according to priority. RESULTS: The response rates for the three rounds were 74, 63, and 60%, respectively. The Delphi process reduced the 30 procedures identified in round 1 to 11 prioritized technical procedures in round 3. These were: flexible bronchoscopy, pleurocentesis, endobronchial ultrasound, endoscopic ultrasound-guided fine-needle aspiration, noninvasive ventilation treatment, transthoracic biopsy of pleural or lung tumor, focused ultrasound scanning of the lungs, chest tube insertion, needle biopsy of visible lymph node/tumor of the skin, focused ultrasound scanning of the heart, and thoracoscopy. CONCLUSION: We performed a Delphi study using a needs assessment formula, which identified 11 technical procedures that are highly suitable for simulation-based training. Medical educators can use this list as a resource in planning simulation-based training programs for trainees in pulmonary medicine.
Authors: Leizl Joy Nayahangan; Kristina Rue Nielsen; Elisabeth Albrecht-Beste; Michael Bachmann Nielsen; Charlotte Paltved; Karen Gilboe Lindorff-Larsen; Bjørn Ulrik Nielsen; Lars Konge Journal: Eur Radiol Date: 2018-01-09 Impact factor: 5.315
Authors: Jennifer Mitzman; Ilana Bank; Rebekah A Burns; Michael C Nguyen; Pavan Zaveri; Michael J Falk; Manu Madhok; Ann Dietrich; Jessica Wall; Muhammad Waseem; Teresa Wu; Alisa McQueen; Cynthia R Peng; Brian Phillips; Francesca M Bullaro; Cindy D Chang; Sam Shahid; David P Way; Marc Auerbach Journal: AEM Educ Train Date: 2019-12-12
Authors: Signe Thim; Leizl Joy Nayahangan; Charlotte Paltved; Rune Dall Jensen; Lars Konge; Niels Thomas Hertel; Thomas Balslev Journal: BMJ Paediatr Open Date: 2020-08-18