Steve C. Han, R. Stainman, N. Busis, S. Grossman, S. Thawani, Arielle M. Kurzweil
{"title":"Curriculum Innovations: A Comprehensive Teleneurology Curriculum for Neurology Trainees","authors":"Steve C. Han, R. Stainman, N. Busis, S. Grossman, S. Thawani, Arielle M. Kurzweil","doi":"10.1212/ne9.0000000000200084","DOIUrl":null,"url":null,"abstract":"As the role of teleneurology expands, it is important to prepare trainees to perform virtual encounters proficiently.We created a comprehensive multimodality teleneurology curriculum for residents to teach key aspects of telehealth encounters including the virtual examination and skill development across several environments.We developed and implemented a teleneurology curriculum focused on teaching the virtual neurologic examination, measuring teleneurology competency, and providing opportunities for trainees to perform telehealth encounters in multiple settings. Residents (N = 22) were first surveyed on what methods would be most helpful to learn teleneurology. Trainees observed a faculty member conducting a teleneurology visit with another faculty member playing a patient. Residents then practiced a teleneurology encounter during a 10-minute objective structured clinical examination (OSCE) at a simulation center. After positive feedback from the fall of 2020, we adapted the OSCE to be completely remote in the spring of 2021 for senior residents. Trainees then performed teleneurology visits during their continuity clinics and subspecialty clinic rotations.All neurology residents from adult and child neurology and neuropsychiatry programs at New York University Grossman School of Medicine participated in the curriculum. Residents identified a variety of teaching modalities that would help them learn teleneurology: didactics with slides (25%), live demonstration (25%), simulated experience (23%), starting with live patients (23%), and articles/reading material (4%). To date, 68 trainees participated in the OSCE. Trainees who completed on-site and remote simulations reported increased comfort (p< 0.05) and interest in teleneurology (p< 0.05) and requested more access to simulations during training. Sensorimotor assessment and adequate visualization of the affected limb were identified as areas for improvement.Our multimodal 3-year teleneurology curriculum provides opportunities for residents to learn and apply teleneurology. Survey tools helped strengthen the curriculum to optimize educational potential. We implemented a teleneurology simulation with and without the use of a simulation center. We plan to expand our teleneurology clinical and simulation experiences to trainees based on our data and further developments in teleneurology and to track the progress of teleneurology skills as residents advance through training.","PeriodicalId":273801,"journal":{"name":"Neurology: Education","volume":"4 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2023-08-03","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"2","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Neurology: Education","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1212/ne9.0000000000200084","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 2
Abstract
As the role of teleneurology expands, it is important to prepare trainees to perform virtual encounters proficiently.We created a comprehensive multimodality teleneurology curriculum for residents to teach key aspects of telehealth encounters including the virtual examination and skill development across several environments.We developed and implemented a teleneurology curriculum focused on teaching the virtual neurologic examination, measuring teleneurology competency, and providing opportunities for trainees to perform telehealth encounters in multiple settings. Residents (N = 22) were first surveyed on what methods would be most helpful to learn teleneurology. Trainees observed a faculty member conducting a teleneurology visit with another faculty member playing a patient. Residents then practiced a teleneurology encounter during a 10-minute objective structured clinical examination (OSCE) at a simulation center. After positive feedback from the fall of 2020, we adapted the OSCE to be completely remote in the spring of 2021 for senior residents. Trainees then performed teleneurology visits during their continuity clinics and subspecialty clinic rotations.All neurology residents from adult and child neurology and neuropsychiatry programs at New York University Grossman School of Medicine participated in the curriculum. Residents identified a variety of teaching modalities that would help them learn teleneurology: didactics with slides (25%), live demonstration (25%), simulated experience (23%), starting with live patients (23%), and articles/reading material (4%). To date, 68 trainees participated in the OSCE. Trainees who completed on-site and remote simulations reported increased comfort (p< 0.05) and interest in teleneurology (p< 0.05) and requested more access to simulations during training. Sensorimotor assessment and adequate visualization of the affected limb were identified as areas for improvement.Our multimodal 3-year teleneurology curriculum provides opportunities for residents to learn and apply teleneurology. Survey tools helped strengthen the curriculum to optimize educational potential. We implemented a teleneurology simulation with and without the use of a simulation center. We plan to expand our teleneurology clinical and simulation experiences to trainees based on our data and further developments in teleneurology and to track the progress of teleneurology skills as residents advance through training.
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