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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.
This report summarizes and discusses the development, main achievements and overall progress of The Interprofessional European eHealth Programme in Higher Education (eHealth4all@EU) project. The project evolved through a strong partnership between members of the consortium, grounding its activities on previous initiatives like TIGER and taking them one step further while looking into the digital health competencies required by graduate students working in health and care and providing teaching approaches and other initiatives to extend further a set of core competencies: Health Information Systems Interoperability, Data Security and Privacy and Data Analytics. Although the project activities underwent during the pandemic period, a condition that forced reorganization and adaptation of the workplan, the main initiatives like the identification of significant areas of interest for digital health competencies and related relevant teaching methods that foster active learning paved the way for the construction of learning content structured around a syllabus aimed at distance learning and faceto- face learning moments developed with the intent for reuse and fostering the development of these set of competences in future Health Professionals. To this purpose, we are convinced that grounding steps have been taken with these eHealth4All@EU activities and initiatives.
IO6 is a report of the evaluation of the online courses and Summer School. The project plan of eHealth4all@EU guides the evaluation. The aim of the evaluation is to present the strengths and developing parts of the project. The main evaluation themes are eHealth, inter-professional education, and problem-based learning. For the funder’s perspective, evaluation focusing themes of digital support, lifelong learning, an active citizen, and the future. Evaluation of the project assign around all these themes and will find out students’ and teachers’ feelings of satisfaction, efficiency, and quality of the learning experience.
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.
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.
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.
Digitalisierung, Künstliche Intelligenz und Big Data als Motor für Wandel in Pflege und Gesellschaft
(2022)
This new edition of the classic textbook on health informatics provides readers in healthcare practice and educational settings with an unparalleled depth of information on using informatics methods and tools. However, this new text speaks to nurses and -- in a departure from earlier editions of this title -- to all health professionals in direct patient care, regardless of their specialty, extending its usefulness as a textbook. This includes physicians, therapists, pharmacists, dieticians and many others. In recognition of the evolving digital environments in all healthcare settings and of interprofessional teams, the book is designed for a wide spectrum of healthcare professions including quality officers, health information managers, administrators and executives, as well as health information technology professionals such as engineers and computer scientists in health care. The book is of special interest to those who bridge the technical and caring domain, particularly nurse and medical informaticians and other informaticians working in the health sciences. Nursing Informatics: An Interprofessional and Global Perspective contains real-life case studies and other didactic features to illustrate the theories and principles discussed, making it an ideal resource for use within health and nursing informatics curricula at both undergraduate and graduate level, as well as for workforce development. It honors the format established by the previous editions by including a content array and questions to guide the reader. Readers are invited to look out of the box through a dedicated global perspective covering health informatics applications in different regions, countries and continents.
Der primäre Einsatzzweck von Reifegradmodellen besteht zumeist in der reinen Inventarisierung der vorhandenen IT-Komponenten. Das vorliegende Kapitel gibt IT-Entscheider*innen in Krankenhäusern Empfehlungen, wie Reifegradmodelle für eine kontinuierliche Weiterentwicklung, Umsetzung und Evaluation von Digitalisierungsstrategien eingesetzt werden können. Als Prüfschema für die Auswahl geeigneter Verfahren werden neun Anforderungen an die Entwicklung und den Einsatz von Reifegradmodellen formuliert. Entlang von drei strategischen Handlungsfeldern – dem klinischen Anwendungsfeld, dem Informationsmanagement und dem organisatorischen Umfeld – werden dem Leser generische Digitalisierungsziele und dazugehörige Beispielindikatoren zur Erfolgskontrolle bereitgestellt.
Access to digital technologies depends on the availability of technical infrastructure, but this access is unequally distributed among social groups and newly summarized under the term digital divide. The aim is to analyze the perception of a tracing app to contain Covid-19 in Germany. The results showed that participants with the highest level of formal education rate the app as beneficial and were the most likely to use the app.
The PosiThera project focuses on the management of chronic wounds, which is multi-professional and multi-disciplinary. For this context, a software prototype was developed in the project, which is intended to support medical and nursing staff with the assistance of artificial intelligence. In accordance with the user-centred design, national workshops were held at the beginning of the project with the involvement of domain experts in wound care in order to identify requirements and use cases of IT systems in wound care, with a focus on AI. In this study, the focus was on involving nursing and nursing science staff in testing the software prototype to gain insights into its functionality and usability. The overarching goal of the iterative testing and adaptation process is to further develop the prototype in a way that is close to care.
Building on Rogers’ Diffusion of Innovation Theory, Bass models describe the diffusion processes distinguishing between innovation (p) and imitation (q). This study aimed at modelling the uptake of RIS, PACS and EHR systems in Germany and Finland. The Bass models revealed a quick and almost identical uptake process across all three systems for Finland. In contrast, the Bass models mirrored a slower uptake in Germany. Consequently, the Finnish “imitation” coefficients were larger than the German ones. While in Germany almost free market forces were driving the adoption through imitation but without tail wind from policy, the adoption process in Finland was centrally governed. This suggests that the diffusion process in Finland reflected a well-managed roll-out of the systems rather than imitation behaviour. Thus, in order for Bass model coefficients to be understood properly, additional contextual information is required.
This paper provides a discourse based upon the key development of nursing in response to the emerging 4Ds of health technology re-design. Building informatics capability among health professionals is a workforce issue necessitated through the increasing prevalence of information technology and digitization of healthcare affecting the entire health workforce, specifically front-line nurses. The key concepts will be explored of Digitization, Distribution, Disruption and Diversity, a framework recognising the tsunami of technology such as Big Data analytics, comprehensive decision support systems for nursing, nanobots, robotics, and pharmacogenomics and the impact these have upon the nursing workforce.
The diabetic foot ulcer, which 2% – 6% of diabetes patients experience, is a severe health threat. It is closely linked to the risk of lower extremity amputation (LEA). When a DFU is present, the chief imperative is to initiate tertiary preventive actions to avoid amputation. In this light, clinical decision support systems (CDSS) can guide clinicians to identify DFU patients early. In this study, the PEDIS classification and a Bayesian logistic regression model are utilised to develop and evaluate a decision method for patient stratification. Therefore, we conducted a Bayesian cutpoint analysis. The CDSS revealed an optimal cutpoint for the amputation risk of 0.28. Sensitivity and specificity were 0.83 and 0.66. These results show that although the specificity is low, the decision method includes most actual patients at risk, which is a desirable feature in monitoring patients at risk for major amputation. This study shows that the PEDIS classification promises to provide a valid basis for a DFU risk stratification in CDSS.
Diabetic foot ulcer (DFU) is a chronic wound and a common diabetic complication as 2% – 6% of diabetic patients witness the onset thereof. The DFU can lead to severe health threats such as infection and lower leg amputations, Coordination of interdisciplinary wound care requires well-written but time-consuming wound documentation. Artificial intelligence (AI) systems lend themselves to be tested to extract information from wound images, e.g. maceration, to fill the wound documentation. A convolutional neural network was therefore trained on 326 augmented DFU images to distinguish macerated from unmacerated wounds. The system was validated on 108 unaugmented images. The classification system achieved a recall of 0.69 and a precision of 0.67. The overall accuracy was 0.69. The results show that AI systems can classify DFU images for macerations and that those systems could support clinicians with data entry. However, the validation statistics should be further improved for use in real clinical settings. In summary, this paper can contribute to the development of methods to automatic wound documentation.
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.
Venous leg ulcers and diabetic foot ulcers are the most common chronic wounds. Their prevalence has been increasing significantly over the last years, consuming scarce care resources. This study aimed to explore the performance of detection and classification algorithms for these types of wounds in images. To this end, algorithms of the YoloV5 family of pre-trained models were applied to 885 images containing at least one of the two wound types. The YoloV5m6 model provided the highest precision (0.942) and a high recall value (0.837). Its mAP_0.5:0.95 was 0.642. While the latter value is comparable to the ones reported in the literature, precision and recall were considerably higher. In conclusion, our results on good wound detection and classification may reveal a path towards (semi-) automated entry of wound information in patient records. To strengthen the trust of clinicians, we are currently incorporating a dashboard where clinicians can check the validity of the predictions against their expertise.
With the start of the 21st century, patient safety as a topic of special interest has attracted increasing attention in both academia and clinical practice. As technology has continued to develop since then, questions and focal points surrounding the topic have also shifted. In particular, questions regarding the impact of digitalization on patient safety and its measurement are now of high interest. This work aims to develop a maturity assessment instrument in the form of a criteria set for measuring structural requirements for digital patient safety in hospitals. Based on the results of a literature review and a derivation of maturity objects (MO) from known maturity models, 64 criteria across 11 categories were developed. Written comments of two digital patient safety experts as well as subsequent interviews were used to evaluate and refine the criteria catalog. The resulting catalog offers hospitals guidance for detecting possible areas of structural improvements in their information systems with regard to patient safety and represents a unique instrument for assessing digital maturity in this particular area.
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.
Apps have been attested to empower patients regarding disease self-management through numerous studies. However, it is still unclear what factors determine the perception of patients whether an app is a useful tool for this purpose. A multiple regression model that was informed by the Technology Acceptance Model (TAM 2) was tested based on the answers of 235 app users with Diabetes type 1 or 2. The model accounted for 59.2% of the variance of the perceived degree of self-management. Factors belonging to the relevance-usefulness-quality complex as well as factors reflecting the patient’s self-control were found to be significant in the model. Patient demographics, i.e. age, gender, app experience and type of Diabetes did not play any significant role. In conclusion, this study raises the question whether apps should be designed to strengthen self-management in the sense of self-control (e.g. own measurements, diary) as opposed to guiding and advice giving.
Background
Digital health technologies enable patients to make a personal contribution to the improvement of their health by enabling them to manage their health. In order to exploit the potential of digital health technologies, Internet-based networking between patients and health care providers is required. However, this networking and access to digital health technologies are less prevalent in sociodemographically deprived cohorts. The paper explores how the use of digital health technologies, which connect patients with health care providers and health insurers has changed during the COVID-19 pandemic.
Methods
The data from a German-based cross-sectional online study conducted between April 29 and May 8, 2020, were used for this purpose. A total of 1.570 participants were included in the study. Accordingly, the influence of sociodemographic determinants, subjective perceptions, and personal competencies will affect the use of online booking of medical appointments and medications, video consultations with providers, and the data transmission to health insurers via an app.
Results
The highest level of education (OR 1.806) and the presence of a chronic illness (OR 1.706) particularly increased the likelihood of using online booking. With regard to data transmission via an app to a health insurance company, the strongest increase in the probability of use was shown by belonging to the highest subjective social status (OR 1.757) and generation Y (OR 2.303). Furthermore, the results show that the higher the subjectively perceived restriction of the subjects' life situation was due to the COVID-19 pandemic, the higher the relative probability of using online booking (OR 1.103) as well as data transmission via an app to a health insurance company (OR 1.113). In addition, higher digital literacy contributes to the use of online booking (OR 1.033) and data transmission via an app to the health insurer (OR 1.034).
Conclusions
Socially determined differences can be identified for the likelihood of using digital technologies in health care, which persist even under restrictive conditions during the COVID-19 pandemic. Thus, the results indicate a digital divide with regard to the technologies investigated in this study.
Einleitung: Whiteboards können als ein Instrument des Lean Managements zur Steuerung der Verweildauer auf Stationen eingesetzt werden, um aktuelle Patienteninformationen zu bündeln und in regelmäßigen strukturierten sowie interdisziplinären Besprechungen die Patientenversorgung zu steuern, die interdisziplinäre Zusammenarbeit zu optimieren und das Entlassungsmanagement zu verbessern. Das Ziel dieser Studie bestand darin, zu untersuchen, inwiefern die Einführung von Whiteboards in zwei Kliniken mit einer Veränderung der Verweildauer einherging.
Methode: Um die Forschungsfrage zu beantworten, wurden retrospektive Zeitreihen aus den DRG-Routinedaten vor und nach Installation der Whiteboards aus den beiden Kliniken in einem Interrupted Time Series Design genutzt. In der einen Klinik (Chirurgie) lagen 3.734 Fälle für den Zeitraum von Januar 2018 bis Dezember 2019 und in der anderen Klinik (Innere Medizin) 54.049 Fälle für den Zeitraum Juli 2013 bis Dezember 2019 vor.
Ergebnisse: In dem gemittelten Vergleich der Verweildauer (relative Verweildauerabweichung pro DRG von dem jeweiligen Verweildauermittel) konnte in der ersten Klinik kein signifikanter Unterschied zwischen den Werten vor und nach Einführung des Boards festgestellt werden. Am zweiten Klinikum zeigte sich sogar im Vorher-Nachher-Vergleich eine signifikante Verschlechterung der Verweildauer. Eine deskriptive Zeitreihenanalyse vor und nach Einführung zeigte in beiden Kliniken, dass kurz nach der Einführung der Boards sich die Verweildauer verschlechterte, anschließend jedoch verbesserte, d.h. dass die Patienten durchschnittlich früher entlassen wurden. Dieser Unterschied ging jedoch im Zeitverlauf wieder zurück.
Diskussion: Zusammenfassend lässt sich festhalten, dass keine Verbesserung in der Verweildauer im Zuge der Nutzung der Whiteboards durch einen reinen Vorher-Nachher-Vergleich nachweisbar war. In der anschließenden Zeitreihenbetrachtung zeigten sich starke Schwankungen, die zunächst mit einer kurzzeitigen Verschlechterung der Verweildauer nach der Implementierung einhergingen und dann zu einer Verbesserung führten. Im Zeitverlauf verblasste der Unterschied jedoch, sodass die Patienten wieder später entlassen wurden. Methodisch zeigt sich, dass im Gegensatz zu der reinen Vorher-Nachher-Analyse erst eine Zeitreihenbetrachtung einen Einblick in das Geschehen und seine Variabilität lieferte. Für die Praxis ergeben sich folgende Implikationen: Whiteboards können als ein hilfreiches Instrument von Lean Management zur Verweildauersteuerung angesehen werden, wie die zwischenzeitlichen Verbesserungen nahelegen. Dies erfordert jedoch eine kontinuierliche, unter Einbezug der Mitarbeiter durchgeführte Pflege der Informationen und einen erkennbaren Mehrwert. Perspektivisch empfiehlt sich zudem eine Digitalisierung der Boards, um den Nachteilen wie der manuellen Pflege entgegenzuwirken.
Background and purpose:
Clinical information logistics is a construct that aims to describe and explain various phenomena of information provision to drive clinical processes. It can be measured by the workflow composite score, an aggregated indicator of the degree of IT support in clinical processes. This study primarily aimed to investigate the yet unknown empirical patterns constituting this construct. The second goal was to derive a data-driven weighting scheme for the constituents of the workflow composite score and to contrast this scheme with a literature based, top-down procedure. This approach should finally test the validity and robustness of the workflow composite score.
Methods:
Based on secondary data from 183 German hospitals, a tiered factor analytic approach (confirmatory and subsequent exploratory factor analysis) was pursued. A weighting scheme, which was based on factor loadings obtained in the analyses, was put into practice.
Results:
We were able to identify five statistically significant factors of clinical information logistics that accounted for 63% of the overall variance. These factors were “flow of data and information”, “mobility”, “clinical decision support and patient safety”, “electronic patient record” and “integration and distribution”. The system of weights derived from the factor loadings resulted in values for the workflow composite score that differed only slightly from the score values that had been previously published based on a top-down approach.
Conclusion:
Our findings give insight into the internal composition of clinical information logistics both in terms of factors and weights. They also allowed us to propose a coherent model of clinical information logistics from a technical perspective that joins empirical findings with theoretical knowledge. Despite the new scheme of weights applied to the calculation of the workflow composite score, the score behaved robustly, which is yet another hint of its validity and therefore its usefulness.
Information Technology (IT) continues to evolve and develop with electronic devices and systems becoming integral to healthcare in every country. This has led to an urgent need for all professions working in healthcare to be knowledgeable and skilled in informatics. The Technology Informatics Guiding Education Reform (TIGER) Initiative was established in 2006 in the United States to develop key areas of informatics in nursing. One of these was to integrate informatics competencies into nursing curricula and life-long learning. In 2009, TIGER developed an informatics competency framework which outlines numerous IT competencies required for professional practice and this work helped increase the emphasis of informatics in nursing education standards in the United States. In 2012, TIGER expanded to the international community to help synthesise informatics competencies for nurses and pool educational resources in health IT. This transition led to a new interprofessional, interdisciplinary approach, as health informatics education needs to expand to other clinical fields and beyond.
In tandem, a European Union (EU) - United States (US) Collaboration on eHealth began a strand of work which focuses on developing the IT skills of the health workforce to ensure technology can be adopted and applied in healthcare. One initiative within this is the EU*US eHealth Work Project, which started in 2016 and is mapping the current structure and gaps in health IT skills and training needs globally. It aims to increase educational opportunities by developing a model for open and scalable access to eHealth training programmes. With this renewed initiative to incorporate informatics into the education and training of nurses and other health professionals globally, it is time for educators, researchers, practitioners and policy makers to join in and ROAR with TIGER.
Background:
While aiming for the same goal of building a national eHealth Infrastructure, Germany and the United States pursued different strategic approaches – particularly regarding the role of promoting the adoption and usage of hospital Electronic Health Records (EHR).
Objective:
To measure and model the diffusion dynamics of EHRs in German hospital care and to contrast the results with the developments in the US.
Materials and methods:
All acute care hospitals that were members of the German statutory health system were surveyed during the period 2007–2017 for EHR adoption. Bass models were computed based on the German data and the corresponding data of the American Hospital Association (AHA) from non-federal hospitals in order to model and explain the diffusion of innovation.
Results:
While the diffusion dynamics observed in the US resembled the typical s-shaped curve with high imitation effects (q = 0.583) but with a relatively low innovation effect (p = 0.025), EHR diffusion in Germany stagnated with adoption rates of approx. 50% (imitation effect q = -0.544) despite a higher innovation effect (p = 0.303).
Discussion:
These findings correlate with different governmental strategies in the US and Germany of financially supporting EHR adoption. Imitation only seems to work if there are financial incentives, e.g. those of the HITECH Act in the US. They are lacking in Germany, where the government left health IT adoption strategies solely to the free market and the consensus among all of the stakeholders.
Conclusion:
Bass diffusion models proved to be useful for distinguishing the diffusion dynamics in German and US non-federal hospitals. When applying the Bass model, the imitation parameter needs a broader interpretation beyond the network effects, including driving forces such as incentives and regulations, as was demonstrated by this study.
The TIGER Initiative
(2016)
Benchmarking, sprich die Vergleichsanalyse von Prozessen mit festgelegtem Bezugswert, findet zunehmend Einzug in die Welt der Gesundheits-IT. Dabei spielen jedoch viele Faktoren zusammen, die einen einfachen Vergleich von IT-Kosten bei Weitem übersteigen. Eine Forschungsgruppe der Hochschule Osnabrück hat mit dem IT-Benchmark Gesundheitswesen ein Analysetool vorgelegt, das auch einen Länder- vergleich ermöglicht.
Das Thema Digitalisierung ist in aller Munde – gerade auch im Bereich Krankenhaus. Allerdings noch nicht zuverlässig und im großen Stile valuiert sind die Fragen: Wie digitalisiert ist die Gesamtheit der deutschen Krankenhäuser tatsächlich? Wie entwickelt sich der Digitalisierungsgrad über die Zeit und im Vergleich zu anderen Nationen? Welchen Maßstab sollte man anlegen? Die Autoren stellen im folgenden Artikel ihren Ansatz für eine bundesweite Erfassung der Krankenhausdigitalisierung vor. Im Ergebnis weisen die betrachteten Krankenhäuser deutliche Optimierungspotenziale auf. Diese reichen von der mobilen Verfügbarkeit elektronischer Patientendaten und IT-Funktionen bis hinzu Fragen der Integration und Interoperabilität der im Einsatz befindlichen Systeme.
Versorgungskontinuität durch Information : Evaluation des HL7-Standards für den ePflegebericht
(2013)
Charakteristika innovativer Krankenhäuser in Deutschland : Ergebnisse einer empirischen Untersuchung
(2011)
Gesundheitskarte im Test
(2015)
Die Gesundheitstelematik unterstützt die Versorgungskontinuität und fördert damit die Patientensicherheit. In Anlehnung an den eArztbrief wurde an der FH Osnabrück der elektronische Pflegebericht entwickelt. Mit dem ePflegebe-richt leistet die Pflege einen ersten wichtigen Beitrag zur Gestaltung eigener gesundheitstelematischer Anwendungen.
Die Zukunft ist elektronisch
(2013)
Eine Studie der Hochschule Osnabrück zeigt: Der elektronische Pflegebericht ist in der Lage, alle für Pflegende relevanten patientenbezogenen Daten zu transportieren. Zugleich schafft er viele neue Möglichkeiten, Informationen weiterzugeben. Insgesamt lassen sich wesentlich mehr und detailliertere Informationen übermitteln als bislang über Papier.
Lückenlose Versorgung
(2020)
IT-Standard für das pflegerische Entlassmanagement.
Der von der Hochschule Osnabrück entwickelte „ePflegebericht“ kann die bisherigen unterschiedlichen papierbasierten Überleitungen ablösen, indem die entsprechenden IT-Systeme interoperabel Dokumente austauschen. Die Pflege erhält mit diesem IT-Standard erstmals einen möglichen Zugang zur Telematikinfrastruktur, um zwischen Einrichtungen und über Sektorengrenzen hinweg pflegerisch relevante Informationen schnell und sicher zu übermitteln.
IT braucht Leadership
(2014)
Die Ergebnisse des IT-Reports Gesundheitswesen zeigen, dass der Pro-zess der Visitenvorbereitung, -durch-führung und -nachbereitung am besten durch IT unterstützt wurde, gefolgt von der OP- Vorbereitung, der OP-Nachbereitung und schließlich der Entlassung (Abbildung l). Von möglichen zehn Punkten in dem jeweiligen Prozess-Score erreichte im Mittel nur die Visite einen Wert über 6,0. Mit 5,3 erzielte der Entlassungsprozess einen deutlich niedrigeren Wert.
IT und Emotion
(2017)
Die Roboterfalle
(2018)
Dienstleister oder Diktator?
(2016)
Die IT in der Rolle eines Dienstleisters zu sehen, ist an unseren Krankenhäusern leider selten Realität. Denn der IT-Diktator zieht gerne in Form überbordender IT-gestützter Dokumentation durch die Arzt- und Stationszimmer. Das sei dann dem „Diktat der DRG" geschuldet, so die Begründung. Aber muss das so sein?
Innovation braucht Freiraum
(2016)
Innovationen sind positiv besetzt. Deshalb reicht es nicht aus, dass etwas „neu“ ist, es muss „innovativ“ sein. Viele verbinden das mit etwas Sensationellem, das große Aufmerksamkeit auf sich lenkt und das revolutionäre Veränderungen mit sich bringt – am besten schlagartig. Gerne werden auch alle technischen Neuerungen als Innovationen bezeichnet. Aber stimmt das denn auch?
Health Telematics Europe
(2011)
The adoption and use of information technology (IT) in health care is influenced by many factors and depends on legal and cultural constraints prevailing in a country. While Europe is constantly coalescing on a political basis, health care is a sector still dominated by national legislation. Consequently, different types of national health care systems have existed throughout Europe for decades which now build the framework for the use of information and communication technology (ICT) by health care provider organizations. The following paragraphs will, therefore, provide a concise overview of the different types of national health care systems in Europe and will characterize the countries with regard to key indicators.
When speaking about eBusiness as applied to the healthcare market two questions arise immediately. Firstly, what is eBusiness? Secondly, why is eBusiness in healthcare different from eBusiness in other sectors?
Within the arena of eBusiness in healthcare, the focus is on purchasing and selling online as the most advanced application. In this book, the Authors consider both the perspective of the healthcare providers and that of the suppliers, showing the interdependencies between the two and developing concepts for a new synergistic cooperation.
eBusiness in Healthcare raises awareness of and interest in electronically mediated business processes in healthcare to a large audience including healthcare informaticians, medical business managers, clinicians, pharmacists and scientists. By taking an international approach to the topic the authors demonstrate the many similarities of eBusiness problems and their solutions among different countries which permits analysis of the differences that are often defined by the national healthcare systems and their rules. Case studies from healthcare institutions and from suppliers in the US, the UK and Germany will illustrate the achievements, barriers and future plans, thus enabling newcomers to learn from previous experience.
Clinicians will gain significant insight by this book which demonstrates the interconnection between patient care processes and management issues at the level of medical supplies. The book also makes a plea for a multidisciplinary effort, to enable the right product to be procured for the right patient. As a rather new discipline, eBusiness in healthcare needs further scientific backing. Against this background, this book will not only provide answers but will also raise questions for future research. Managing change and innovation and establishing the critical mass for eBusiness in healthcare is a major undertaking. The aim of this book is to support this process.
Telepflege
(2017)
Telepflege ist eine Anwendung von Informations- und Kommunikationstechnologie im Gesundheitswesen, die Pflegekräfte mit Vertretern der eigenen Berufsgruppe oder anderer Berufsgruppen sowie mit Patienten und ihren Angehörigen insbesondere über räumliche Grenzen hinweg in Verbindung treten lässt. Ziel der Telepflege ist es, Menschen in das eigene professionelle Handeln einzubeziehen, die anderweitig nicht erreichbar sind. Häufig werden dabei nicht nur textliche Nachrichten übermittelt, sondern auch Bilder (z. B. Fotos einer Wunde), Signale (z. B. EKG) oder Vitalwerte (z. B. Körpergewicht). In seiner einfachsten Form ist das Hausnotrufsystem eine Realisierung von Telepflege. Komplexere Formen stellen beispielsweise eine über ein Videokonferenzsystem ermöglichte Fallbesprechung unterschiedlicher Berufsgruppen an unterschiedlichen Standorten dar oder eine Videoverbindung zwischen Pflegekraft und Patient (Telekonsultation). Eine weitere Form von Telepflege bietet die Vitalwertüberwachung von Risikopatienten (Telemonitoring). Die Entwicklung des Internets der Dinge wird weitere Anwendungsfälle bereitstellen. Telepflege ist ein Instrument, das den persönlichen Kontakt nicht ersetzt, sondern den eigenen Handlungsradius erweitert. Aus diesem Grund wird Telepflege in ländlichen Gebieten mit unzureichender Gesundheitsversorgung erfolgreich zum Einsatz gebracht.
Das Ausmaß der Digitalisierung im Gesundheitswesen bemisst sich daran, wie gut die vorhandene IT Informationslogistik bedienen kann. Der IT-Report Gesundheitswesen ist eine Umfragereihe, die seit 16 Jahren den Digitalisierungsgrad in Krankenhäusern untersucht und eine Familie von Composite Scores bereitstellt, insbesondere den Workflow Composite Score (WCS) zur Messung der klinischen Informationslogistik. Dieser lag mit durchschnittlich 56 von 100 Punkten im Jahr 2017 nur knapp über der Marke von 50 Punkten. Weitere Sub-Scores wie z. B. der für den Aufnahmeprozess lagen mit 44 Punkten sogar darunter. Dieses Ergebnis zeigt, dass es ein großes Potenzial zur Verbesserung gibt, das ausgeschöpft werden muss, soll Digitalisierung ihren Effekt der Vernetzung, Transparenz, Datenanalytik und Wissensgenerierung entfalten.
Das Informationsmanagement steht im Zentrum erfolgreicher eHealth-Innovationsprozesse von Krankenhäusern. Im Kontext komplexer, zum Teil tradierter Krankenhausstrukturen kann die Gestaltungsfähigkeit des Informationsmanagements durch eine ausgeprägte Intrapreneurship-Kultur erhöht werden, wovon vermutlich auch der Digitalisierungsgrad der Einrichtungen profitiert. Vor diesem Hintergrund verfolgte die vorliegende Studie zwei Forschungsfragen: (1.) Welche Effekte hat Intrapreneurship auf den Digitalisierungsgrad der Krankenhäuser und (2.) inwiefern werden diese Effekte durch das Informationsmanagement beeinflusst? Zur Beantwortung der Forschungsfragen wurde ein konzeptionelles Untersuchungsmodell entwickelt, welches mit Daten von 224 IT-Leitern evaluiert wurde. Die Ergebnisse bestätigen, dass Intrapreneurship die Umsetzung von eHealth-Anwendungen positiv beeinflussen kann. Die identifizierten Effekte waren jedoch vorwiegend indirekter Art, vermittelt durch den Professionalisierungsgrad des Informationsmanagements. So kann Intrapreneurship auf IT-Leiter-Ebene und auf Ebene der Gesamtorganisation zu einer Professionalisierung des strategischen Informationsmanagements führen. Auf Ebene der IT-Abteilung profitiert vor allem das operative Informationsmanagement von einer ausgeprägten Intrapreneurship-Kultur.
Die Verbreitung von Informationstechnologien (IT) im Gesundheitswesen sowie deren Einflussgrößen sind Betrachtungsobjekt der Adoptions- und Diffusionsforschung. Neues Wissen aus diesen Studien wird dabei häufig als summative Umfrageergebnisse disseminiert. Mit dem in diesem Beitrag vorgestellten Web-Portal werden die individuellen Umfrageergebnisse im Vergleich zu einer Referenzgruppe präsentiert. Das erfolgt in flexibler Form unter Verwendung von reliablen und validen Kennzahlen der IT-Prozessunterstützung, die in einer hierarchischen Struktur angeordnet sind. Es werden die Entwicklung des Web-Portals als Benchmarking Instrument, seine Anwendung und eine initiale Evaluation vorgestellt. Es zeigte sich, dass das Web-Portal anhand aktueller Benchmarking-Ergebnisse von 197 Krankenhäusern einsetzbar ist, seine Anwendung als nützlich und die Indikatoren als verständlich eingeschätzt werden.
Despite the wealth of literature on requirements engineering, little is known about engineering very generic, innovative and emerging requirements, such as those for cross-sectional information chains. The IKM health project aims at building information chain reference models for the care of patients with chronic wounds, cancer-related pain and back pain. Our question therefore was how to appropriately capture information and process requirements that are both generally applicable and practically useful. To this end, we started with recommendations from clinical guidelines and put them up for discussion in Delphi surveys and expert interviews. Despite the heterogeneity we encountered in all three methods, it was possible to obtain requirements suitable for building reference models. We evaluated three modelling languages and then chose to write the models in UML (class and activity diagrams). On the basis of the current project results, the pros and cons of our approach are discussed.
Requirements Engineering für Referenzmodelle mittels eines multimethodischen Vorgehensmodells
(2012)
Obwohl es zahlreiche Arbeiten zum Requirements Engineering im Allgemeinen gibt, ist über die Ermittlung generischer und innovativer Anforderungen, wie sie in intersektoralen Informations-ketten eine Rolle spielen, wenig bekannt. Das Projekt IKM health zielt auf die Entwicklung von Referenzmodellen für Informationsketten zur Patientenversorgung ab. Forschungsfrage dieser Studie war, wie Informations- und Prozessanforderungen generiert werden können. Vor diesem Hintergrund wurde mit der Analyse von Leitlinien begonnen, deren Empfehlungen anschließend im Rahmen von Delphi-Befragungen und Experteninterviews zur Diskussion gestellt wurden. Trotz der sich zeigenden Heterogenität war es mit Hilfe des hier vorgestellten multimethodischen Vorgehensmodells möglich, passende Anforderungen zu erzielen und in UML zu modellieren.