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BACKGROUND: Telemedical concepts, already successfully established in various clinical areas, such as radiology, are increasingly being implemented in the preclinical setting throughout Germany (tele-emergency physician). OBJECTIVE: The aim of the article is to present the objectives and requirements as well as the practical implementation and the potential indications for a telemedical emergency system in the preclinical situation. MATERIAL AND METHODS: Discussion of scientific facts and expert recommendations, specifically from experiences of the tele-emergency physician (Telenotarzt) project in an urban environment (City of Aachen). In addition, reference is made to a second pilot project in a rural region (Straubing, Bavaria). RESULTS: The successful implementation of a prehospital telemedical emergency system requires a specific framework, in particular of a legal and technical nature. In order to achieve optimal process quality it is important to establish a comprehensive concept that takes aspects of patient safety into account. The entire dispatch process in the control center as well as the training of all involved personnel must also be taken into consideration. CONCLUSION: With its special structures and processes, the overall concept of the telemedical emergency physician meets the changing challenges in the preclinical healthcare system and opens up new possibilities for patient care that meet the current requirements.
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Medicina de Emergencia , Telemedicina , Atención a la Salud , Alemania , Humanos , Proyectos PilotoRESUMEN
INTRODUCTION: A standardized team-training program for healthcare professionals in obstetric units was developed based on an analysis of common causes for adverse events found in claims registries. The interdisciplinary and inter-professional training concept included both technical and non-technical skill training. Evaluation of the program was carried out in hospitals with respect to the immediate personal learning of participants and also regarding changes in safety culture. METHODS: Trainings in n=7 hospitals including n=270 participants was evaluated using questionnaires. These were administered at four points in time to staff from participating obstetric units: (1) 10 days ahead of the training (n=308), (2) on training day before (n=239), (3) right after training (n=248), and (4) 6 months after (n=188) the intervention. Questionnaires included several questions for technical and non-technical skills and the Hospital Survey on Patient Safety (HSOPS). RESULTS: Strong effects were found in the participants' perception of their own competence regarding technical skills and handling of emergencies. Small effects could be observed in the scales of the HSOPS questionnaire. Most effects differed depending on professional groups and hospitals. CONCLUSIONS: Integrated technical and team management training can raise employees' confidence with complex emergency management skills and processes. Some indications for improvements on the patient safety culture level were detected. Furthermore, differences between professional groups and hospitals were found, indicating the need for more research on contributing factors for patient safety and for the success of crew resource management (CRM) trainings.
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Instrucción por Computador/métodos , Educación Médica Continua/métodos , Neonatología/educación , Obstetricia/educación , Grupo de Atención al Paciente , Adulto , Simulación por Computador , Femenino , Alemania , Maternidades , Humanos , Recién Nacido , Masculino , Persona de Mediana Edad , Seguridad del Paciente , Embarazo , Encuestas y CuestionariosRESUMEN
Nausea and vomiting are frequent symptoms in emergency medicine and require a targeted drug intervention. Despite known disadvantages in terms of efficacy and side effects, metoclopramide is still often used in the emergency medical service to treat nausea and vomiting. Recent studies show that, especially in the therapy of opioid-triggered vomiting, metoclopramide is not significantly effective when compared to placebo. Dimenhydrinate seems to be an effective drug for various forms of nausea, but can often be relatively or absolutely contraindicated in emergency medicine due to its sedative effect. Based on a literature review, 5-HT3-antagonists appear to be a good alternative for the treatment of emesis in the emergency service. However, as for all antiemetics, the maximum dosage and potential side effects need to be paid attention to. In addition, neither of the 5-HT3-antagonists are approved for therapy of non-chemotherapy-induced vomiting or PONV. In conclusion, it may be considered to include 5-HT3-antagonists in addition to dimenhydrinate in the ambulance medical equipment. The routine use of a specific antiemetic is not recommended.
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Antieméticos/uso terapéutico , Servicios Médicos de Urgencia/métodos , Dimenhidrinato/uso terapéutico , Medicina de Emergencia , Humanos , Metoclopramida/uso terapéutico , Náusea y Vómito Posoperatorios/prevención & control , Antagonistas del Receptor de Serotonina 5-HT3/uso terapéuticoRESUMEN
BACKGROUND: Since the report "To err is human" was published by the Institute of Medicine in the year 2000, topics regarding patient safety and error management are in the focal point of interest of science and politics. Despite international attention, a structured and comprehensive medical education regarding these topics remains to be missing. GOALS: The Learning Objective Catalogue for Patient Safety described below the Committee for Patient Safety and Error Management of the German Association for Medical Education (GMA) has aimed to establish a common foundation for the structured implementation of patient safety curricula at the medical faculties in German-speaking countries. METHODS: The development the Learning Objective Catalogue resulted via the participation of 13 faculties in two committee meetings, two multi-day workshops, and additional judgments of external specialists. RESULTS: The Committee of Patient Safety and Error Management of GMA developed the present Learning Objective Catalogue for Patient Safety in Undergraduate Medical Education, structured in three chapters: Basics, Recognize Causes as Foundation for Proactive Behavior, and Approaches for Solutions. The learning objectives within the chapters are organized on three levels with a hierarchical organization of the topics. Overall, the Learning Objective Catalogue consists of 38 learning objectives. All learning objectives are referenced with the National Competency-based Catalogue of Learning Objectives for Undergraduate Medical Education. DISCUSSION: The Learning Objective Catalogue for Patient Safety in Undergraduate Medical Education is a product that was developed through collaboration of members from 13 medical faculties. In the German-speaking countries, the Learning Objective Catalogue should advance discussion regarding the topics of patient safety and error management and help develop subsequent educational structures. The Learning Objective Catalogue for Patient Safety can serve as a common ground for an intensified, constructive, subject-specific discussion about these topics at the medical faculties, and guide the implementation of hopefully multiple patient safety curricula in undergraduate medical education.
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Catálogos como Asunto , Curriculum , Educación de Pregrado en Medicina , Errores Médicos/prevención & control , Seguridad del Paciente , Sociedades Médicas , Educación de Pregrado en Medicina/organización & administración , Medicina Basada en la Evidencia/educación , Alemania , Humanos , Lactante , Objetivos OrganizacionalesRESUMEN
Medical errors rank high amongst leading causes of death. Especially in emergency care, when there is limited time to think, the "human factor", the interface between human action and the environmental system, has been recognized to be a critical part that determines the outcome. Recent models of human error are based on the principle that critical incidents are of multifactorial origin and reflect insufficiencies of the underlying system itself. The Human Simulation Center (HSC) was built specifically to train interaction between medical teams and to investigate the human factor in medical emergencies. In the following article we present "MevidIO", a live-monitoring and debriefing application framework. Developed for a full-scale simulation center designed to model error transduction in medical emergency care process chains, the framework integrates educational and scientific aspects.