Pregnancy Based Learning - Werkstattbericht

Zu Beginn des Studiums BSc Hebamme erarbeiten die Studierenden mit der Siebensprung-Methode die Begleitung eines fiktiven Paares anhand einer sich über sechs Episoden erstreckenden Fallgeschichte. Dadurch erwerben sie die Kompetenz, eine regelrichtige Schwangerschaft selbständig zu betreuen. Um den Praxistransfer zu fördern, nehmen die Studierenden am Studienprojekt „Lernen von Schwangeren“ teil. Dabei erfahren sie im direkten Austausch mit schwangeren Frauen, wie diese ihre Schwangerschaft erleben. Das problembasierte Lernen mittels fortlaufender Fallgeschichte, unterstützt durch das Transferangebot, sichert einen hohen Praxisbezug und einen nachhaltigen Kompetenzerwerb

Engineering Blood and Lymphatic Microvascular Networks in Fibrin Matrices

Vascular network engineering is essential for nutrient delivery to tissue-engineered constructs and, consequently, their survival. In addition, the functionality of tissues also depends on tissue drainage and immune cell accessibility, which are the main functions of the lymphatic system. Engineering both the blood and lymphatic microvasculature would advance the survival and functionality of tissue-engineered constructs. The aim of this study was to isolate pure populations of lymphatic endothelial cells (LEC) and blood vascular endothelial cells (BEC) from human dermal microvascular endothelial cells and to study their network formation in our previously described coculture model with adipose-derived stromal cells (ASC) in fibrin scaffolds. We could follow the network development over a period of 4 weeks by fluorescently labeling the cells. We show that LEC and BEC form separate networks, which are morphologically distinguishable and sustainable over several weeks. In addition, lymphatic network development was dependent on vascular endothelial growth factor (VEGF)-C, resulting in denser networks with increasing VEGF-C concentration. Finally, we confirm the necessity of cell–cell contact between endothelial cells and ASC for the formation of both blood and lymphatic microvascular networks. This model represents a valuable platform for in vitro drug testing and for the future in vivo studies on lymphatic and blood microvascularization

A four-organ-chip for interconnected long-term co-culture of human intestine, liver, skin and kidney equivalents

Systemic absorption and metabolism of drugs in the small intestine, metabolism by the liver as well as excretion by the kidney are key determinants of efficacy and safety for therapeutic candidates. However, these systemic responses of applied substances lack in most in vitro assays. In this study, a microphysiological system maintaining the functionality of four organs over 28 days in co-culture has been established at a minute but standardized microsystem scale. Preformed human intestine and skin models have been integrated into the four-organ-chip on standard cell culture inserts at a size 100000-fold smaller than their human counterpart organs. A 3D-based spheroid, equivalent to ten liver lobules, mimics liver function. Finally, a barrier segregating the media flow through the organs from fluids excreted by the kidney has been generated by a polymeric membrane covered by a monolayer of human proximal tubule epithelial cells. A peristaltic on-chip micropump ensures pulsatile media flow interconnecting the four tissue culture compartments through microfluidic channels. A second microfluidic circuit ensures drainage of the fluid excreted through the kidney epithelial cell layer. This four-organ-chip system assures near to physiological fluid-to-tissue ratios. In-depth metabolic and gene analysis revealed the establishment of reproducible homeostasis among the co-cultures within two to four days, sustainable over at least 28 days independent of the individual human cell line or tissue donor background used for each organ equivalent. Lastly, 3D imaging two-photon microscopy visualised details of spatiotemporal segregation of the two microfluidic flows by proximal tubule epithelia. To our knowledge, this study is the first approach to establish a system for in vitro microfluidic ADME profiling and repeated dose systemic toxicity testing of drug candidates over 28 days.BMBF, 0315569, GO-Bio 3: Multi-Organ-Bioreaktoren für die prädiktive Substanztestung im Chipforma

Implementation in nursing and midwifery. A scoping review

Hintergrund: Evidenzbasiertes Wissen steht im Pflege- und Hebammenbereich zunehmend zur Verfügung, wird aber nicht automatisch in die Praxis umgesetzt. Implementationsforschung gewinnt daher immer grössere Bedeutung. Die international verfügbaren Forschungsergebnisse zu den Faktoren, die zum Gelingen einer Implementation beitragen, sind bislang noch nicht genügend aufbereitet worden. Gegenstand des Artikels: Im vorliegenden Scoping Review wird der Frage nachgegangen, welche Arbeiten zur gelungenen Vorbereitung, Durchführung und Aufrechterhaltung von Interventionen im Bereich der Pflege- und Hebammenarbeit vorliegen. Methode: In der für Scoping Reviews vorgesehenen, systematischen Vorgehensweise wurden einschlägige Datenbanken durchsucht, um Reviews und Studien zur Implementationsforschung im Bereich Pflege und Hebammenarbeit aufzufinden. Der Auswahlprozess, der zur Trefferliste führte, und die Charakteristika der eingeschlossenen Studien werden in Abbildungen und Tabellen strukturiert aufbereitet. Ergebnis: In vier Reviews und 38 Studien, die den Einschlusskriterien entsprechen, werden verschiedene Faktoren mit gelungener Implementation verbunden. Für die eingeschlossenen Studien werden folgende vier Kategorien aufgestellt: (1) Arbeitsplatzkultur mit 16 Nennungen, (2) Leitungskultur: 28 Nennungen, (3) Ressourcen: 4 Nennungen und (4) Training mit 22 Nennungen. Je nach Phase der Implementation (Vorbereitung, Durchführung oder Aufrechterhaltung) kommt ihnen eine etwas andere Bedeutung zu. Zusammenfassung: Das Review bietet eine Orientierung im Feld der Implementationsforschung und zeigt Design, Thema und Ergebnis der eingeschlossenen Studien auf. Nur wenige Studien berücksichtigen relevante Theorien und zeigen den Einfluss sowohl der Forschenden als auch der Zielgruppe auf den Implementationsprozess oder die genaue Beschreibung der Umstände, in denen die Implementation stattfindet, auf. Background: Evidence-based expertise in nursing and midwifery is growing but is not automatically turned into practice. The importance of implementation research is therefore increasing. International research results on factors facilitating implementation have not yet been sufficiently presented. Objective: This scoping review will explore the findings on successful preparation, realisation and maintenance of interventions in nursing and midwifery. Method: Based on an existing systematic approach, relevant data bases were accessed to identify original studies relating to implementation research in nursing and midwifery. The process of study selection and the characteristics of the included studies were charted. Findings: In the four reviews and 38 studies which met the inclusion criteria, various factors leading to successful implementation are identified. Based on the included studies, four facilitating factors can be pinpointed: (1) workplace culture (16 entries), (2) leadership culture (28 entries), (3) resources (4 entries), and (4) training (22 entries). Depending on the specific phase of the implementation process (preparation, realisation, or maintenance), these factors will vary in importance. Conclusion: This scoping review provides an orientation for the field of implementation research and it maps the design, themes and results of the studies included. It should be noted that few studies take into consideration the relevant theories, as well as the influence that the researchers and the target group may have on the implementation process, or provide an exact description of the setting in which the implementation takes place

Chip-based human liver-intestine and liver-skin co-culture : A first step toward systemic repeated dose substance testing in vitro

Systemic repeated dose safety assessment and systemic efficacy evaluation of substances are currently carried out on laboratory animals and in humans due to the lack of predictive alternatives. Relevant international regulations, such as OECD and ICH guidelines, demand long-term testing and oral, dermal, inhalation, and systemic exposure routes for such evaluations. So-called “human-on-a-chip” concepts are aiming to replace respective animals and humans in substance evaluation with miniaturized functional human organisms. The major technical hurdle toward success in this field is the life-like combination of human barrier organ models, such as intestine, lung or skin, with parenchymal organ equivalents, such as liver, at the smallest biologically acceptable scale. Here, we report on a reproducible homeostatic long-term co-culture of human liver equivalents with either a reconstructed human intestinal barrier model or a human skin biopsy applying a microphysiological system. We used a multi-organ chip (MOC) platform, which provides pulsatile fluid flow within physiological ranges at low media-to-tissue ratios. The MOC supports submerse cultivation of an intact intestinal barrier model and an air–liquid interface for the skin model during their co-culture with the liver equivalents respectively at 1/100.000 the scale of their human counterparts in vivo. To increase the degree of organismal emulation, microfluidic channels of the liver–skin co-culture could be successfully covered with human endothelial cells, thus mimicking human vasculature, for the first time. Finally, exposure routes emulating oral and systemic administration in humans have been qualified by applying a repeated dose administration of a model substance – troglitazone – to the chip-based co-cultures.BMBF/0315569/GO-Bio 3: Multi-Organ-Bioreaktoren für die prädiktive Substanztestung im Chipforma

Towards Translational ImmunoPET/MR Imaging of Invasive Pulmonary Aspergillosis: The Humanised Monoclonal Antibody JF5 Detects Aspergillus Lung Infections In Vivo

This is the final published versionAvailable from Ivyspring International Publisher via the DOI in this recordInvasive pulmonary aspergillosis (IPA) is a life-threatening lung disease of hematological malignancy and bone marrow transplant patients caused by the ubiquitous environmental fungus Aspergillus fumigatus. Current diagnostic tests for the disease lack sensitivity as well as specificity, and culture of the fungus from invasive lung biopsy, considered the gold standard for IPA detection, is slow and often not possible in critically ill patients. In a previous study, we reported the development of a novel non-invasive procedure for IPA diagnosis based on antibody-guided positron emission tomography and magnetic resonance imaging (immunoPET/MRI) using a [64Cu]DOTA-labeled mouse monoclonal antibody (mAb), mJF5, specific to Aspergillus. To enable translation of the tracer to the clinical setting, we report here the development of a humanised version of the antibody (hJF5), and pre-clinical imaging of lung infection using a [64Cu]NODAGA-hJF5 tracer. The humanised antibody tracer shows a significant increase in in vivo biodistribution in A. fumigatus infected lungs compared to its radiolabeled murine counterpart [64Cu]NODAGA-mJF5. Using reverse genetics of the pathogen, we show that the antibody binds to the antigenic determinant 1,5-galactofuranose (Galf) present in a diagnostic mannoprotein antigen released by the pathogen during invasive growth in the lung. The absence of the epitope Galf in mammalian carbohydrates, coupled with the enhanced imaging capabilities of the hJF5 antibody, means that the [64Cu]NODAGA-hJF5 tracer developed here represents an ideal candidate for the diagnosis of IPA and translation to the clinical setting.This work was supported by the European Union Seventh Framework Programme FP7/2007-2013 under Grant 602820, the Deutsche Forschungsgemeinschaft (Grant WI3777/1-2 to SW), and the Werner Siemens Foundation. We thank Sven Krappman for use of the A. fumigatustdTomato strain, and acknowledge the Imaging Centre Essen (IMCES) for assistance with optical imaging of lungs

Functional recovery is considered the most important target: a survey of dedicated professionals

Background: The aim of this study was to survey the relative importance of postoperative recovery targets and perioperative care items, as perceived by a large group of international dedicated professionals. Methods: A questionnaire with eight postoperative recovery targets and 13 perioperative care items was mailed to participants of the first international Enhanced Recovery After Surgery (ERAS) congress and to authors of papers with a clear relevance to ERAS in abdominal surgery. The responders were divided into categories according to profession and region. Results: The recovery targets ‘To be completely free of nausea’, ‘To be independently mobile’ and ‘To be able to eat and drink as soon as possible’ received the highest score irrespective of the responder's profession or region of origin. Equally, the care items ‘Optimizing fluid balance’, ‘Preoperative counselling’ and ‘Promoting early and scheduled mobilisation’ received the highest score across all groups. Conclusions: Functional recovery, as in tolerance of food without nausea and regained mobility, was considered the most important target of recovery. There was a consistent uniformity in the way international dedicated professionals scored the relative importance of recovery targets and care items. The relative rating of the perioperative care items was not dependent on the strength of evidence supporting the items