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Problem-based learning (PBL) has become established as a successful didactic approach far beyond the field of medicine. Although there is no single concept of PBL, there is agreement on its objectives and implementation. Of central importance is the case that supports autonomous and reflective learning. Even before COVID-19, digital methods were used in traditional PBL. These served to support, for example, the provision of learning materials. As a result of university closures during the COVID-19 pandemic, technical solutions were made available at an unprecedented speed, which made it possible to implement the different requirements of traditional PBL in a digital PBL (DPBL). The present study results based on two scoping reviews demonstrated that PBL can be implemented digitally and that different digital methods, both asynchronous and synchronous, are available for the different steps. They show that DPBL not only leads to comparable student performance, but can also develop further competences, e.g. digital communication. With the findings, a concept for the implementation of DPBL as well as recommendations for the further development of DPBL are available.
Communication deficits belong to the most frequent errors in patient handovers calling upon specialized training approaches to be implemented. This study aims to harness problem-based learning (PBL) methods in handover education and evaluated the learning process. A digitally enabled PBL course was developed and implemented at Klinikum Osnabrück from which eight nurses participated in the course. They agreed on the stimulating effect of the setting regarding self-directed learning and on the potential to translate the new knowledge and skills into the daily clinical practice. In conclusion, the findings are promising that a digitally enabled PBL course is a suitable learning format for handover education.
Introduction: Handovers are a central process for ensuring information continuity in patient care and, therefore, possess a major influence on patient safety as errors due to poor handovers can lead to life-threatening events. Education to improve handovers and ensure safe patient care can be supported by using critical incident reporting systems (CIRS). The aim of the study is to perform a content analysis of a national CIRS-database with regard to identifying adverse events in handovers situations and to derive competencies for the development of continuing education from these findings.
Methods: A meta model served as a research framework to merge the empirical findings with the London protocol of analysing critical events and the Canadian framework of safety competencies. Relevant cases to be investigated were searched in a freely accessible German CIRS database.
Results: A total of 253 case descriptions were found and analysed. Team factors emerged as the most frequently reported influencing factors following the analysis of the London protocol. Communication errors and missing information as well as a lack of appropriate standards and processes appeared to be the main reasons for critical events to occur. Most of the events happened in units involving surgery and intensive care. A mapping of patient safety competences with the reasons for critical events was conducted in order to determine the practical, concrete and handover related competencies.
Conclusion: Data from a CIRS database and theoretical frameworks can be combined to extract meaningful information about patient safety risks in handover situations. The results are useful for developing curricula to improve handovers based on patient safety competencies.
The article describes an analysis of the use of e-learning to improve the learning transfer to practice in continuing education. Therefore an e-learning offer has been developed as a part between two attendance periods of a training course in the field of Ambient Assisted Living (AAL). All participants of the course were free to use the e-learning offer. After the end of the e-learning part we compared the e-learning users to the other participants. Using an online questionnaire we explored if there are differences in the activities in the field AAL after the training course. The results show that e-learning is beneficial especially for communication processes. Due to the fact that the possibility to talk about the learning content is an essential factor for the learning transfer, e-learning can improve the learning success.
An Iterative Methodology for Developing National Recommendations for Nursing Informatics Curricula
(2016)
The increasing importance of IT in nursing requires educational measures to support its meaningful application. However, many countries do not yet have national recommendations for nursing informatics competencies. We thus developed an iterative triple methodology to yield validated and country specific recommendations for informatics core competencies in nursing. We identified relevant competencies from national sources (step 1), matched and enriched these with input from the international literature (step 2) and fed the resulting 24 core competencies into a survey (120 invited experts from which 87 responded) and two focus group sessions with a total of 48 experts (steps 3a/3b). The subsequent focus group sessions confirmed and expanded the findings. As a result, we were able to define role specific informatics core competencies for three countries.
In September 2022, the interprofessional European Summer School on the topic “Information in Healthcare – From Data to Knowledge” was held at the University of Porto. This Summer School included the topics Interoperability, Data Protection and Security and Data Analytics and consisted of an online preparation phase and an attendance phase in Porto. The didactic concept involved problem-based learning using a case study. A variety of course materials were developed and used to achieve the learning objectives. There are plans to continue the Summer School concept at participating institutions in the future, starting with a Spring School 2023 in Osnabrück.
Interoperability, Data Protection and Security and Data Analytics are of high relevance for the future of eHealth and interprofessional care. Three online courses were therefore designed and delivered for these topics, all of which followed the same structure. A variety of materials were developed and different tools for knowledge transfer, communication and collaboration were used.
Der zunehmende Einsatz von Informations- und Kommunikationstechnologie im Gesundheitswesen verlangt auch von Angehörigen der Pflegeberufe Kompetenzen zur Nutzung der entsprechenden Systeme und Verfahren. Vor diesem Hintergrund haben sich die AG „Informationsverarbeitung in der Pflege“ der Deutschen Gesellschaft für Medizinische Informatik, Biometrie und Epidemiologie (GMDS), die Österreichische Gesellschaft für Pflegeinformatik (ÖGPI) und die Schweizerische Interessensgruppe Pflegeinformatik (IGPI) innerhalb des Schweizer Berufsverband der Pflegefachfrauen und Pflegefachmänner (SBK) entschlossen, gemeinsame Empfehlungen für benötigte Kernkompetenzfelder in Pflegeinformatik zu erarbeiten. Auf Basis einer iterativen multimethodischen Vorgehensweise unter Einbeziehung von einer großen Anzahl von Fachexperten aus Deutschland, Österreich und der Schweiz (D-A-CH) wurden 24 notwendige Felder von Kernkompetenzen definiert und deren Relevanz für fünf typische Berufsfelder in der Pflege bewertet. Damit liegt erstmalig eine wissenschaftlich fundierte Empfehlung für zu vermittelnde Kernkompetenzfelder in der Pflegeinformatik für verschiedene pflegerische Berufsfelder vor. Sie richtet sich an alle Personen mit Verantwortung für die Planung von Studium, Lehre, Aus- und Weiterbildung in der Pflege.
Hochschule und Universität Osnabrück haben mit regionalen Partnern (Stadt, Landkreis, Bistum, evangelisch-lutherischem Kirchenkreis, Kompetenzzentrum Gesundheitswirtschaft) die Grundsatzvereinbarung unterzeichnet, in Osnabrück einen Gesundheitscampus zu etablieren. Das Ziel ist, einen Ort zu schaffen, an dem Wissenschaft, Unternehmen der Gesundheitsversorgung, Träger von Gesundheitseinrichtungen und Politik zusammenkommen, um innovative Versorgungskonzepte für die Region zu erproben. „ROSE – das Lernende Gesundheitssystem in der Region Osnabrück-Emsland“ ist ein Großprojekt im Rahmen des Gesundheitscampus Osnabrück, das von dem Niedersächsischen Ministerium für Wissenschaft und Kultur (MWK) über 5 Jahre gefördert wird. Dabei wird das Prinzip des Lernens durch Feedback angewendet. Das bedeutet, dass durch Forschung in und mit der Praxis Evidenz im Sinne von practice-based evidence erzeugt wird, d.h. Evidenz für eine bessere Versorgungspraxis unter Berücksichtigung städtischer und ländlicher Strukturen. Dies hat zur Konsequenz, dass der Transferprozess zwischen Hochschule und Versorgungspraxis nicht am Ende sondern bereits am Anfang steht. Mit dem Ansatz einer wiederkehrenden Abfolge von Forschungsfragen und Analysen von Daten aus der Versorgungspraxis rekurriert ROSE auf das Prinzip des „Learning Health Care System“ (IOM, 2007). Im Rahmen von ROSE stimmen sich Hochschule und Universität Osnabrück ab, um die Ziele des Gesundheitscampus zu erreichen. Die geplante Umsetzung wird anhand eines Modells mit fünf Maßnahmen vorgestellt. Diese bauen auf der Vielfalt von bereits bestehenden Gesundheitsstudiengängen in Osnabrück auf und bringen Forschung, Nachwuchsförderung und Translation von Forschungsergebnissen zusammen.
Teachers in health informatics have a broad variety of international and national educational recommendations to rely on when designing programmes, curricula, courses and educational material. However, in addition they often need very specific information for their setting, blue-prints, hands-on experience and encouragement to try something new. This workshop presents three case studies from European universities who have implemented inter-professional, technology enabled health informatics courses in undergraduate, postgraduate and open university settings. These approaches will be put into the context of the TIGER recommendation framework that includes priority ratings of health informatics competencies and case studies to illustrate them. The workshop attendees will have ample opportunity to exchange ideas with the presenters and start a mutual learning process for health informatics teachers.
This study describes the eHealth4all@eu course development pipeline that builds upon the TIGER educational recommendations and allows a systematic development grounded on scientific and field requirements of competencies, a case/problem-based pedagogical approach and finally results in the syllabus and the course content. The pipeline is exemplified by the course Learning Healthcare in Action: Clinical Data Analytics.
Background: While health informatics recommendations on competencies and education serve as highly desirable corridors for designing curricula and courses, they cannot show how the content should be situated in a specific and local context. Therefore, global and local perspectives need to be reconciled in a common framework.
Objectives: The primary aim of this study is therefore to empirically define and validate a framework of globally accepted core competency areas in health informatics and to enrich this framework with exemplar information derived from local educational settings.
Methods: To this end, (i) a survey was deployed and yielded insights from 43 nursing experts from 21 countries worldwide to measure the relevance of the core competency areas, (ii) a workshop at the International Nursing Informatics Conference (NI2016) held in June 2016 to provide information about the validation and clustering of these areas and (iii) exemplar case studies were compiled to match these findings with the practice. The survey was designed based on a comprehensive compilation of competencies from the international literature in medical and health informatics.
Results: The resulting recommendation framework consists of 24 core competency areas in health informatics defined for five major nursing roles. These areas were clustered in the domains “data, information, knowledge”, “information exchange and information sharing”, “ethical and legal issues”, “systems life cycle management”, “management” and “biostatistics and medical technology”, all of which showed high reliability values. The core competency areas were ranked by relevance and validated by a different group of experts. Exemplar case studies from Brazil, Germany, New Zealand, Taiwan/China, United Kingdom (Scotland) and the United States of America expanded on the competencies described in the core competency areas.
Conclusions: This international recommendation framework for competencies in health informatics directed at nurses provides a grid of knowledge for teachers and learner alike that is instantiated with knowledge about informatics competencies, professional roles, priorities and practical, local experience. It also provides a methodology for developing frameworks for other professions/disciplines. Finally, this framework lays the foundation of cross-country learning in health informatics education for nurses and other health professionals.
This paper describes the methodology and developments towards the TIGER International Recommendation Framework of Core Competencies in Health Informatics 2.0. This Framework is meant to augment the scope from nursing towards a series of six other professional roles, i.e. direct patient care, health information management, executives, chief information officers, engineers and health IT specialists and researchers and educators. Health informatics core competency areas were compiled from various sources that had integrated the literature and were grouped into consistent clusters. The relevance of these core competency areas was rated in a survey by 718 professional experts from 51 countries. Furthermore, 22 local case studies illustrated the competencies and gave insight into examples of local educational practice. The Framework contributes to the overall discourse on how to shape health informatics education to improve quality and safety of care by enabling useful and successful health information systems.
The aim of this European interprofessional Health Informatics (HI) Summer School was (i) to make advanced healthcare students familiar with what HI can offer in terms of knowledge development for patient care and (ii) to give them an idea about the underlying technical and legal mechanisms. According to the students’ evaluation, interprofessional education was very well received, problem-based learning focussing on cases was rated positively and the learning goals were met. However, it was criticised that the online material provided was rather detailed and comprehensive and could have been a bit overcharging for beginners. These drawbacks were obviously compensated by the positive experience of working in international and interprofessional groups and a generally welcoming environment.
The University of Eastern Finland was the responsible partner of IO1: European eHealth Education: Policy and Practice Review. The aim of this intellectual output was to customize and validate the already existing international health informatics recom-mendations. Based on that the aim was also to describe the priorities of core compe-tencies and learning outcomes particularly in the fields addressed by this project. The methods used were a scoping review and focus group interviews. The aim of the scoping review was to explore how education in health informatics (HI) has been taught by evaluating the existing international frameworks and reported ed-ucations in HI. The scoping review was conducted based on the instructions of Joanna Briggs Institute to find English language publications published between 2016 and 2020. All publications found in the bibliographical database MEDLINE via PubMed, Scopus and Web of Sciences were included. The results indicated that education in HI is essential to everyone, and everyone needs skills and knowledge in both technical and non-technical skills in HI. Education in HI should be introduced already in the first year of the education and with time increase the knowledge to a more advanced level. The teaching methods can vary between lectures in class to a more hybrid method. The aim of the online focus group interview was to investigate the needs of HI compe-tencies in health care. To achieve the answers, two main questions were used as a base of the interview. The first question focused on how knowledge and competencies in health informatics could contribute to improving health care. The second question focused on which HI competencies are seen as important to learn and how to achieve them. Online focus group interviews were conducted in each of the three countries. The interviews were done the own languages (German, Portuguese, and Finnish) and later summarized and translated to English. The focus group interviews concluded that there are challenges and possibilities in health informatics. It also highlighted the com-petencies seen as important to have in daily working life. For example, skills in appli-cations in patient care, knowledge in IT-background and IT related management are considered important.
Angehörige der Gesundheitsberufe sehen sich vermehrt mit komplexen und neuen Aufgaben sowie einem veränderten Arbeitsumfeld konfrontiert. Gleichzeitig ist das Gesundheitswesen durch ein hohes Maß an Arbeitsteilung gekennzeichnet, die das nahtlose Zusammenwirken unterschiedlichster Gesundheitsberufe voraussetzt. Daher kommt der Entwicklung interdisziplinärer Kompetenzen eine hohe Bedeutung zu.
An der Hochschule Osnabrück werden im Rahmen des BMBF-geförderten Forschungsverbundprojekts „Kompetenzentwicklung von Gesundheitsfachpersonal im Kontext des Lebenslangen Lernens“ (KeGL) berufsbegleitende wissenschaftliche Zertifikatsangebote in den Bereichen Patientensicherheitsmanagement und Gesundheitsinformatik entwickelt und in interdisziplinär zusammengesetzten Gruppen erprobt. Im Mittelpunkt dieser Handreichung stehen die Ergebnisse und Erfahrungen aus der ersten Förderphase, in welcher neben einer Analyse von Kompetenzbedarfen, die Erarbeitung eines Lehr-Lern-Konzepts und die Erprobung zweier Pilotmodule erfolgt sind.