{"title":"PG44原位模拟及其在Covid-19准备中的应用","authors":"S. Pearson, Jemma White, B. Heath","doi":"10.1136/BMJSTEL-2020-ASPIHCONF.92","DOIUrl":null,"url":null,"abstract":"Background In-situ simulation allows for learning in the environment in which it is to be used. This allows identification of latent error, organisational challenges presented by the environment as well as providing learning opportunities for staff such as refreshing clinical knowledge and improved human factors awareness (Schofield et al, 2018). In-situ simulation can also prepare staff to more easily take up specific roles in stressful but infrequent situations such as cardiac arrest and poly trauma cases (Schofield et al, 2018). There is also evidence that people who have undergone simulation training for events like cardiac arrest have better skills in practice (Mondrup et al, 2011). We modified an existing in-situ simulation programme within our hospital to help prepare for the ongoing Covid-19 Pandemic. Summary of Work During the Covid-19 pandemic new clinical guidelines and procedures were introduced in a short space of time. We used in-situ simulation as a tool to teach new practices to staff, but also as a safe way to identify latent risk. Our two examples explored within this poster presentation include stress testing of the re-located paediatric emergency department which was moved to accommodate the new Covid-19 assessment area and a multi-speciality and interdisciplinary simulation to test cardiac arrest guidelines in a patient with Covid-19. As a result of these simulations changes to practice and organisation of the work environment were implemented to improve patient safety and care. We also identified some limitations to performing in-situ simulation during a pandemic. The loss of protected teaching time impacted simulation as staff carrying out this work had to be re-deployed clinically. During busy periods space in the department was reduced and limited the ability to perform simulation. Equipment issues also arose such as the act of simulating a Covid-19 scenario used up PPE stocks which initially were in short supply. Discussion We feel that our work shows the value of in-situ simulation in preparing hospitals for management of Covid-19 patients. It allows for the testing of new guidelines and departmental re-organisation, provides learning to staff from different disciplines and different specialities within the hospital and allows identification of latent risks. With the potential for a second wave of Covid-19 early testing of hospital preparedness using in-situ simulation to check planned guidelines and operating procedures will help to strengthen staff knowledge, increase familiarity with new policies or procedures and can highlight safety issues due to environment or equipment limitations. References Schofield, L. Welfare, E. & Mercer, S. In-situ simulation. Trauma 2018;Vol 20:p281–p288. Mondrup, F. Brabrand, M. Folkestad, L. Oxlund, J. Wiborg, K. Sand, N. & Knudsen, T. In-hospital resuscitation evaluated by in situ simulation; a prospective simulation study. Scandinavian Journal of Trauma, Resuscitation and Emergency Medicine 2011;Vol 19:p55–p60.","PeriodicalId":44757,"journal":{"name":"BMJ Simulation & Technology Enhanced Learning","volume":null,"pages":null},"PeriodicalIF":1.1000,"publicationDate":"2020-11-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"PG44 In-situ simulation and its use in preparation for Covid-19\",\"authors\":\"S. Pearson, Jemma White, B. Heath\",\"doi\":\"10.1136/BMJSTEL-2020-ASPIHCONF.92\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Background In-situ simulation allows for learning in the environment in which it is to be used. This allows identification of latent error, organisational challenges presented by the environment as well as providing learning opportunities for staff such as refreshing clinical knowledge and improved human factors awareness (Schofield et al, 2018). In-situ simulation can also prepare staff to more easily take up specific roles in stressful but infrequent situations such as cardiac arrest and poly trauma cases (Schofield et al, 2018). There is also evidence that people who have undergone simulation training for events like cardiac arrest have better skills in practice (Mondrup et al, 2011). We modified an existing in-situ simulation programme within our hospital to help prepare for the ongoing Covid-19 Pandemic. Summary of Work During the Covid-19 pandemic new clinical guidelines and procedures were introduced in a short space of time. We used in-situ simulation as a tool to teach new practices to staff, but also as a safe way to identify latent risk. Our two examples explored within this poster presentation include stress testing of the re-located paediatric emergency department which was moved to accommodate the new Covid-19 assessment area and a multi-speciality and interdisciplinary simulation to test cardiac arrest guidelines in a patient with Covid-19. As a result of these simulations changes to practice and organisation of the work environment were implemented to improve patient safety and care. We also identified some limitations to performing in-situ simulation during a pandemic. The loss of protected teaching time impacted simulation as staff carrying out this work had to be re-deployed clinically. During busy periods space in the department was reduced and limited the ability to perform simulation. Equipment issues also arose such as the act of simulating a Covid-19 scenario used up PPE stocks which initially were in short supply. Discussion We feel that our work shows the value of in-situ simulation in preparing hospitals for management of Covid-19 patients. It allows for the testing of new guidelines and departmental re-organisation, provides learning to staff from different disciplines and different specialities within the hospital and allows identification of latent risks. With the potential for a second wave of Covid-19 early testing of hospital preparedness using in-situ simulation to check planned guidelines and operating procedures will help to strengthen staff knowledge, increase familiarity with new policies or procedures and can highlight safety issues due to environment or equipment limitations. References Schofield, L. Welfare, E. & Mercer, S. In-situ simulation. Trauma 2018;Vol 20:p281–p288. Mondrup, F. Brabrand, M. Folkestad, L. Oxlund, J. Wiborg, K. Sand, N. & Knudsen, T. In-hospital resuscitation evaluated by in situ simulation; a prospective simulation study. 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引用次数: 0
摘要
现场模拟允许在使用它的环境中进行学习。这可以识别潜在的错误,环境带来的组织挑战,并为员工提供学习机会,例如更新临床知识和提高人为因素意识(Schofield等人,2018)。现场模拟还可以使工作人员在压力大但不常见的情况下(如心脏骤停和多重创伤病例)更容易担任特定角色(Schofield等人,2018)。也有证据表明,接受过心脏骤停等事件模拟训练的人在实践中有更好的技能(Mondrup et al, 2011)。我们修改了医院内现有的现场模拟程序,以帮助为正在进行的Covid-19大流行做好准备。在2019冠状病毒病大流行期间,短时间内推出了新的临床指南和程序。我们使用现场模拟作为向员工传授新实践的工具,同时也是一种识别潜在风险的安全方法。我们在这张海报展示中探讨了两个例子,包括对重新安置的儿科急诊科进行压力测试,该急诊科为适应新的Covid-19评估区域而搬迁,以及对Covid-19患者进行多专业和跨学科模拟,以测试心脏骤停指南。这些模拟的结果改变了实践和工作环境的组织,以提高患者的安全和护理。我们还确定了在大流行期间进行现场模拟的一些限制。受保护的教学时间的损失影响了模拟,因为执行这项工作的工作人员必须重新部署到临床。在繁忙时期,该部门的空间减少,限制了进行模拟的能力。设备问题也出现了,例如模拟Covid-19情景的行为耗尽了最初供应短缺的个人防护装备库存。我们认为,我们的工作显示了现场模拟在医院准备管理Covid-19患者中的价值。它允许测试新的指导方针和部门重组,为医院内不同学科和不同专业的工作人员提供学习机会,并允许识别潜在风险。由于有可能出现第二波Covid-19疫情,利用现场模拟来检查计划的指导方针和操作程序,对医院准备情况进行早期测试,将有助于加强工作人员的知识,增加对新政策或程序的熟悉程度,并可以突出由于环境或设备限制而导致的安全问题。参考文献Schofield, L. Welfare, E. & Mercer, S.原位模拟。创伤2018;Vol 20: p281-p288。Mondrup, F. Brabrand, M. Folkestad, L. Oxlund, J. Wiborg, K. Sand, N. & Knudsen, T.原位模拟评估院内复苏;前瞻性模拟研究。斯堪的纳维亚创伤、复苏和急诊医学杂志2011;Vol 19: p55-p60。
PG44 In-situ simulation and its use in preparation for Covid-19
Background In-situ simulation allows for learning in the environment in which it is to be used. This allows identification of latent error, organisational challenges presented by the environment as well as providing learning opportunities for staff such as refreshing clinical knowledge and improved human factors awareness (Schofield et al, 2018). In-situ simulation can also prepare staff to more easily take up specific roles in stressful but infrequent situations such as cardiac arrest and poly trauma cases (Schofield et al, 2018). There is also evidence that people who have undergone simulation training for events like cardiac arrest have better skills in practice (Mondrup et al, 2011). We modified an existing in-situ simulation programme within our hospital to help prepare for the ongoing Covid-19 Pandemic. Summary of Work During the Covid-19 pandemic new clinical guidelines and procedures were introduced in a short space of time. We used in-situ simulation as a tool to teach new practices to staff, but also as a safe way to identify latent risk. Our two examples explored within this poster presentation include stress testing of the re-located paediatric emergency department which was moved to accommodate the new Covid-19 assessment area and a multi-speciality and interdisciplinary simulation to test cardiac arrest guidelines in a patient with Covid-19. As a result of these simulations changes to practice and organisation of the work environment were implemented to improve patient safety and care. We also identified some limitations to performing in-situ simulation during a pandemic. The loss of protected teaching time impacted simulation as staff carrying out this work had to be re-deployed clinically. During busy periods space in the department was reduced and limited the ability to perform simulation. Equipment issues also arose such as the act of simulating a Covid-19 scenario used up PPE stocks which initially were in short supply. Discussion We feel that our work shows the value of in-situ simulation in preparing hospitals for management of Covid-19 patients. It allows for the testing of new guidelines and departmental re-organisation, provides learning to staff from different disciplines and different specialities within the hospital and allows identification of latent risks. With the potential for a second wave of Covid-19 early testing of hospital preparedness using in-situ simulation to check planned guidelines and operating procedures will help to strengthen staff knowledge, increase familiarity with new policies or procedures and can highlight safety issues due to environment or equipment limitations. References Schofield, L. Welfare, E. & Mercer, S. In-situ simulation. Trauma 2018;Vol 20:p281–p288. Mondrup, F. Brabrand, M. Folkestad, L. Oxlund, J. Wiborg, K. Sand, N. & Knudsen, T. In-hospital resuscitation evaluated by in situ simulation; a prospective simulation study. Scandinavian Journal of Trauma, Resuscitation and Emergency Medicine 2011;Vol 19:p55–p60.