“Teaching is both an art and a science” (Harrison & Coll, 2008 p.1). Good teaching excites students and cultivates their curiosity to learn more than they are asked. But what if students’ blank faces tell you that the teaching did not land, what can you do? Using an analogy or metaphor to explain the principle helps students visualize and comprehend the knowledge of difficult, abstract concepts by making it familiar. The National Academy of Engineers issued a report in 2008 emphasizing the need for design engineers to develop 21st century skills, such as ingenuity and creativity, and to create innovative products and markets. However, designers have a hard time ignoring evident constraints on their concepts during their design process. This is especially difficult for novice designers when attempting to use analogical reasoning (Osborn, 1963; Hey et al. 2008). Hey et al. explains how the multitude of design considerations is even more difficult for novice as compared to expert designers who are more able to focus on the important features of a problem. Kolodner (1997) iterates how novice designers have difficulty sifting through the mass of information they encounter. They need help with the transfer of knowledge that analogical reasoning requires. When students can clearly extract and articulate what they have learned, this helps them to internalize this. Biomimicry education teaches the clear extraction and articulation while learning to decipher and transfer function analogies from biology to design. This transfer can also improve reasoning when solving problems (Wu and Weng, 2013), reacting to the challenge in a more ‘out-of-the-box’ manner (Yang et al. 2015). However, not being able to fully understand this “conceptual leap between biology and design” in an accurate manner, is sited as a key obstacle of this field (Rowland, 2017; Rovalo and McCardle 2019, p. 1). Therefore, didactics on how to teach this analogical leap to overcome the hurdles is essential. There is insufficient research on the effectivity of biomimicry education in design to help establish ‘best practices’. This thesis offers advice to fill this pedagogical gap to find out how to overcome the obstacle of analogical reasoning for novice designers, while practicing biomimicry. The contribution to science is a not earlier tested methodology that leads to a clearer understanding of the translation of biological strategies and mechanisms found in scientific research. This translation from biology to design in visual and textual manner, is called the Abstracted Design Principle (ADP) and is introduced and explained in detail in chapters 4, 5 and 6 of this thesis. Together with the proposed instructions, we sketch the net-gain of positive mind-set for novice designers on their path to design for a sustainable future.
Introduction: Given the complexity of teaching clinical reasoning to (future) healthcare professionals, the utilization of serious games has become popular for supporting clinical reasoning education. This scoping review outlines games designed to support teaching clinical reasoning in health professions education, with a specific emphasis on their alignment with the 8-step clinical reasoning cycle and the reflective practice framework, fundamental for effective learning. Methods: A scoping review using systematic searches across seven databases (PubMed, CINAHL, ERIC, PsycINFO, Scopus, Web of Science, and Embase) was conducted. Game characteristics, technical requirements, and incorporation of clinical reasoning cycle steps were analyzed. Additional game information was obtained from the authors. Results: Nineteen unique games emerged, primarily simulation and escape room genres. Most games incorporated the following clinical reasoning steps: patient consideration (step 1), cue collection (step 2), intervention (step 6), and outcome evaluation (step 7). Processing information (step 3) and understanding the patient’s problem (step 4) were less prevalent, while goal setting (step 5) and reflection (step 8) were least integrated. Conclusion: All serious games reviewed show potential for improving clinical reasoning skills, but thoughtful alignment with learning objectives and contextual factors is vital. While this study aids health professions educators in understanding how games may support teaching of clinical reasoning, further research is needed to optimize their effective use in education. Notably, most games lack explicit incorporation of all clinical reasoning cycle steps, especially reflection, limiting its role in reflective practice. Hence, we recommend prioritizing a systematic clinical reasoning model with explicit reflective steps when using serious games for teaching clinical reasoning.
When physicians and nurses are looking at the same patient, they may not see the same picture. If assuming that the clinical reasoning of both professions is alike and ignoring possible differences, aspects essential for care can be overlooked. Understanding the multifaceted concept of clinical reasoning of both professions may provide insight into the nature and purpose of their practices and benefit patient care, education and research. We aimed to identify, compare and contrast the documented features of clinical reasoning of physicians and nurses through the lens of layered analysis and to conduct a simultaneous concept analysis. The protocol of this systematic integrative review was published doi: 10.1136/bmjopen-2021-049862. A comprehensive search was performed in four databases (PubMed, CINAHL, Psychinfo, and Web of Science) from 30th March 2020 to 27th May 2020. A total of 69 Empirical and theoretical journal articles about clinical reasoning of practitioners were included: 27 nursing, 37 medical, and five combining both perspectives. Two reviewers screened the identified papers for eligibility and assessed the quality of the methodologically diverse articles. We used an onion model, based on three layers: Philosophy, Principles, and Techniques to extract and organize the data. Commonalities and differences were identified on professional paradigms, theories, intentions, content, antecedents, attributes, outcomes, and contextual factors. The detected philosophical differences were located on a care-cure and subjective-objective continuum. We observed four principle contrasts: a broad or narrow focus, consideration of the patient as such or of the patient and his relatives, hypotheses to explain or to understand, and argumentation based on causality or association. In the technical layer a difference in the professional concepts of diagnosis and the degree of patient involvement in the reasoning process were perceived. Clinical reasoning can be analysed by breaking it down into layers, and the onion model resulted in detailed features. Subsequently insight was obtained in the differences between nursing and medical reasoning. The origin of these differences is in the philosophical layer (professional paradigms, intentions). This review can be used as a first step toward gaining a better understanding and collaboration in patient care, education and research across the nursing and medical professions.
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The objective of the SIA KIEM proposal Capturing Value is to understand financial decision making and capturing value as a logical step in the conceptual and realization phase of creative products. We will explore the narrative of reasoning and making choices in the use of different financial instruments by creative professionals. These narratives are telling about the values creative professionals attach to financial decision making and how these influence the choice of financial instruments. Most research focusses either on the (non)availability of financial instruments or on the use of these instruments. This research proposal focusses on the missing link: how do creative professionals reason when confronted with making financial decisions? Which options do they consider and how are these influenced by their attitude towards and knowledge of various formal and informal financial instruments? The project is a first step to develop a bigger and international research proposal on the way artists and creatives capture the financial value of their creations.
For English see below In dit project werkt het Lectoraat ICT-innovaties in de Zorg van hogeschool Windesheim samen met zorganisaties de ZorgZaak, De Stouwe, en IJsselheem en daarnaast Zorgcampus Noorderboog, Zorgtrainingscentrum Regio Zwolle, Patiëntenfederatie NPCF, VitaalThuis, ActiZ, Vilans, V&VN, Universiteit Twente en het Lectoraat Innoveren in de Ouderenzorg van Windesheim aan het in staat stellen van wijkverpleegkundigen om autonoom en doelmatig, op basis van klinisch redeneren, eHealth te indiceren en in te zetten bij cliënten. De aanleiding voor dit project wordt gevormd door de wijzigingen per 1 januari 2015 in de Zorgverzekeringswet. Wijkverpleegkundigen zijn sindsdien zelf verantwoordelijk voor de indicatiestelling en zorgtoewijzing voor verzorging en verpleging thuis: zij moeten bepalen welke zorg hun cliënten nodig hebben gezien hun individuele situaties, en hoe die zorg het best geleverd kan worden. Zorgverzekeraars leggen hierbij minimumeisen op, o.a. met betrekking tot de inzet van eHealth. Wijkverpleegkundigen hebben op dit moment echter niet of nauwelijks ervaring met het inzetten en toepassen van technologische toepassingen zoals eHealth. Vraagarticulatie leidde tot de volgende praktijkvraagstelling: 1. Hoe kunnen wijkverpleegkundigen worden voorzien in hun informatiebehoefte over eHealth? 2. Hoe kunnen wijkverpleegkundigen worden ondersteund in hun klinisch redeneren over het inzetten van eHealth bij hun cliënten? 3. Hoe kunnen wijkverpleegkundigen worden ondersteund bij het inzetten van eHealth in hun zorgproces? Het project levert hiertoe drie bijdragen: - De eerste bijdrage is een duurzaam geborgde keuzehulp (een app voor tablet of smartphone) waarmee wijkverpleegkundigen toegang hebben tot de benodigde informatie over eHealth-toepassingen en die aansluit bij de manier waarop wijkverpleegkundigen zorg indiceren (bijvoorbeeld door relaties te leggen tussen NIC-interventies en bijpassende eHealth-toepassingen). - Informatievoorziening is niet een afdoende antwoord op de handelingsverlegenheid van de wijkverpleegkundige omdat eHealth sterk in ontwikkeling is en blijft waardoor er altijd een discrepantie zal bestaan tussen de beschikbare en de benodigde informatie. . De tweede bijdrage van dit project is daarom kennis over (en inzicht in) het klinisch redeneren over de inzet van eHealth. Deze kennis wordt in het project doorvertaald naar een trainingsmodule die erop is gericht om het klinisch redeneren van wijkverpleegkundigen over het inzetten van eHealth en andere thuiszorgtechnologie bij hun cliënten te versterken. - De derde bijdrage van dit project omhelst inbedding van bovengenoemde resultaten in het verpleegkunde-onderwijs van onder meer Windesheim en in nascholingstrajecten voor wijkverpleegkundigen. Voor duurzame, bredere inbedding in het onderwijs wordt samengewerkt met regionale zorgonderwijsnetwerken. In this project the research group IT-innovations in Health Care of Windesheim University of Applied Sciences cooperates with care organisations de ZorgZaak, De Stouwe, and IJsselheem, and stakeholders Zorgcampus Noorderboog, Zorgtrainingscentrum Regio Zwolle, Patiëntenfederatie NPCF, VitaalThuis, ActiZ, Vilans, V&VN, University of Twente, and research group Innovation of Care of Older Adults of Windesheim to enable home care nurses to autonomously and adequately, based on clinical reasoning, allocate eHealth and implement it in patient care. The motivation behind this project lies in the alterations in the care insurance legislation per January 2015. Since then, home care nurses are responsible for the care allocation of all care at home: they determine which care their clients require, taking into account the individual situations, and how this care can best be delivered. Care insurance companies impose minimum requirements for this allocation of home care, among others concerning the implementation of eHealth. Home care nurses, however, have no or limited information about and experience with technical applications like eHealth. Articulation of the demands of home care nurses resulted in the following questions: 1. How can home care nurses be provided with information concerning eHealth? 2. How can home care nurses be supported in their clinical reasoning about the deployment of eHealth by their patients? 3. How can home care nurses be supported when deploying eHealth in their care process? This project contributes in three ways: " The first contribution is a sustainable selection tool (an app for tablet or smartphone) to be used by home care nurses to provide them with the required information about eHealth applications. This selection tool will work in accordance with how home care nurses allocate care, e.g. by relating NIC-interventions to matching eHealth applications. " Providing information is an insufficient, although necessary, answer to the demands of home care nurses because of continuously developing eHealth applications. Hence, the second contribution of this project is knowledge about (and insight in) the clinical reasoning about the deployment of eHealth. This knowledge will be converted into a training module aimed at strengthening the clinical reasoning about the deployment of eHealth by their patients. " The third contribution of this project concerns embedding the selection tool and the training module in regular education (among others at Windesheim) and in refresher courses for home care nurses. Cooperation with regional care education networks will ensure sustainable and broad embedding of both the selection tool and the training module.
Meestal is er geen specifieke oorzaak te vinden voor nekpijn. Fysiotherapie richt zich daarom op algemene zaken, zoals spierkracht en beweeglijkheid. We onderzoeken of er effectieve behandelingen zijn voor subgroepen met niet-specifieke nekpijn. Met deze inzichten kunnen we fysiotherapie verbeteren.Doel We willen inzicht krijgen in effectieve behandelingen bij subgroepen patiënten met niet-specifieke nekpijn. Dit leidt uiteindelijk tot kostenvermindering voor de maatschappij en een sneller en beter herstel van de patiënten. Resultaten Dit onderzoek loopt nog. Na afronding vind je hier een samenvatting van alle resultaten. Tot nu toe is duidelijk geworden dat de volgende behandelingen effectief kunnen zijn bij patiënten met niet-specifieke nekpijn: Behandelingen gericht op kracht en uithoudingsvermogen. Behandelingen gericht op coördinatie met gebruik van visuele feedback. Een voorbeeld hiervan is patiënten met een laserlamp een parcours laten uitvoeren op een scherm. De resultaten van het onderzoek worden verwerkt in het bachelor- en masteronderwijs en cursussen binnen het werkveld. Looptijd 01 december 2015 - 01 december 2020 Aanpak Dit onderzoek bestaat uit verschillende delen: We onderzoeken wat er vanuit wetenschappelijk onderzoek al bekend is over de relatie tussen beperking in activiteit en een passende behandeling. We voeren een Delphi-studie uit onder deskundigen naar het behandelen van mensen met niet-specifieke nekpijn. We vragen ze naar een overeenstemming over de relatie tussen beperking in activiteit en een algemene behandeling, zoals het trainen van spierkracht. We onderzoeken of beweegoefeningen en/of manipulaties, als meest onderzochte behandelingen bij mensen met nekpijn, zo zijn beschreven dat we het kunnen hergebruiken. In de laatste studie onderzoeken we of beweegoefeningen en/of manipulaties effectief zijn in het herstellen van de beweeglijkheid. Het gaat hierbij om een subgroep van mensen met nekpijn die ook beperkt zijn in hun beweeglijkheid. Rapporten tot nu toe: The clinical reasoning process in randomized clinical trials with patients with non-specific neck pain is incomplete: A systematic review. Maissan F, Pool J, de Raaij E, Mollema J, Ostelo R, Wittink H. Musculoskelet Sci Pract. 2018 Jun;35:8-17 Clinical reasoning in unimodal interventions in patients with non-specific neck pain in daily physiotherapy practice, a Delphi study. Maissan F, Pool J, Stutterheim E, Wittink H, Ostelo R., Musculoskelet Sci Pract. 2018 Oct;37:8-16
