AIM: The aim of this study is to investigate the effect of a more 'community-oriented' baccalaureate nursing curriculum on students' intervention choice in community care.BACKGROUND: Following a healthcare shift with increased chronic diseases in an ageing patient population receiving care at home, nursing education is revising its curricula with new themes (e.g., self-management) on community care. Although it seems obvious that students incorporate these themes in their nursing care interventions, this is unclear. This study investigates the effect of a redesigned curriculum on students' care intervention choice in community nursing.DESIGN: A quasi-experimental quantitative study.METHODS: This study with an historic control group (n = 328; study cohorts graduating in 2016 and 2017; response rate 83 %) and an intervention group n = 152; graduating in 2018; response rate 80 %) was performed at a University of Applied Sciences in the Netherlands. The intervention group experienced a curriculum-redesign containing five new themes related to community care (e.g., enhancing self-management, collaboration with the patients' social network, shared decision making, using health technology and care allocation). The primary outcome 'intervention choice in community nursing' was assessed with a specially developed vignette instrument 'Assessment of Intervention choice in Community Nursing' (AICN). Through multiple regression analyses we investigated the effect of the curriculum-redesign on students' intervention choice (more 'traditional' interventions versus interventions related to the five new themes). The control and intervention groups were compared on the number of interventions per theme and on the number of students choosing a theme, with a chi-square or T-test.RESULTS: Students who studied under the more community-oriented curriculum chose interventions related to the new themes significantly more often, F(1461) = 14.827, p = <0.001, R2 = .031. However, more traditional interventions are still favourite (although less in the intervention group): 74.5 % of the chosen interventions in the historic control group had no relation with the new curriculum-themes, vs. 71.3 % in the intervention group; p = .055).CONCLUSIONS: Students who experienced a more 'community-oriented' curriculum were more likely, albeit to a limited extent, to choose the new community care themes in their caregiving. Seeing this shift in choices as a step in the right direction, it can be expected that the community care field in the longer term will benefit from these better skilled graduates.
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This research focuses on exit choices within SMEs. In this study, “exit choice” refers to the decision to opt for either liquidation or sale of the firm. The predictions focus on human-capital and firm-resource variables. The hypotheses are tested on a set of 158 owners of small firms, the majority of which are micro-firms with 0–9 employees. The results of a series of binominal logistic regression analyses show that firm-resource characteristics (previous sales turnover, the firm’s independence from its owner, and firm size), together with one aspect of the owner’s specific human capital (the owner’s acquisition experience), predict exit choice. The conclusions have been made with caution, as the dataset is relatively small and the number of predictors is limited.
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In het kader van het onderzoek Sturen op motivatie hebben Rianne van der Weijden en Leo Witte in 2013 een studiereis gemaakt naar Canada. Deze publicaties bevat het verslag van deze studiereis, een compilatie van wat de onderzoekers in Canada gezien en gehoord hebben en wat zij ter voorbereiding lazen.
On a yearly basis 120 million kg of spent coffee ground (SCG) is disposed as waste. Two partners in the project have the intension to refine the valuable compounds from this coffee residue. One of these compounds is the group of melanoidins. It is proven that these natural polymers, with polyphenols incorporated, can be used as a colorant for wool. The polyphenols show antioxidant ability and high levels of ultraviolet radiation blocking which will give extra benefits when the SCG extract is applied as a colorant in smart packaging. In this project the extraction process is refined and industrial dyeing methods for wool, cotton and paper are evaluated. SCG colored samples are tested for color intensity and light and wash fastness. For the best coloring results commercial potential will be evaluated in a market study. Prospects in textile, paper and packaging industries are contacted to share their view about the possible applications of SCG extracts as colorants. The results are used in the business plan of the SCG refinery plant. With the SCG extract as a professional biobased colorant in the market, companies in textile, paper and packaging industry will have a wider choice in using environmental friendly products. At the end, this will lead to complete biodegradable products for consumers.
A feeling of worry, anxiety, loneliness and anticipation are commonplace in both medical and non-medical arenas such as elderly care. An innovative solution such as the ‘simple and effective’ comfyhand would offer better patient care and improved care efficiency with a high chance of long-term, economic efficiency. ComfyHand is a start-up in the healthcare sector that aims to develop sustainable products to improve patient wellbeing in healthcare settings. It does this by emulating the experience of holding a hand which gives the person comfort and support in moments where real human contact is not possible. Right now the comfyhand is in the development phase, working on several prototypes for test trials in elderly care and hospitals. In this project we want to explore the use of 3D printing for producing a comfyhand. Desired properties for the prototype include optimal heat transfer, softness, regulation of sweat, durability and sustainability. The goal of this study is to develop a prototype to test in a trial with patients within Envida, a care centre. The trial itself is out of scope of this project. This proposal focuses on researching the material of choice and the processability. Building on knowledge gained in a previous Kiem GoChem project and a Use Case (Shape3Dup) of a currently running Raak MKB project (Enlighten) on 3D printing of breast prostheses, several materials, designs and printing parameters will be tested.
Point-of-Care devices are broadly viewed as an important contribution to reduce the costs in our healthcare system. Cheap, quick, and reliable testing close to the point of need, can help early detection and thus reduce treatment costs, while improving the quality of life. An important challenge in the realization is the development of the individual cartridges that should be produced in large quantities at low costs. Especially for applications where high sensitivity is required, these cartrgidges will typically have a complex design. In this project we want to develop a manufacturing strategy for large scale production of cartridges based on photonic sensing chips, currently the most sensitive sensors available. A typical sensor cartridge with photonic sensors would comprise the sensor chip, an interface with active components (light source and detectors), the bio-active layer that captures the biomarkers to be detected and a protective package. In addition, there is the choice to integrate the active components in the package (making the interface an electrical one) or placing them in the read-out unit (making the interface an optical one). Finally, testing of the sensor cartridges should also be part of the process. A suitable manufacturing strategy would offer the lowest total-cost-of-ownership (TCO) of the production and use of the cartrdiges. Important in the considereations is that steps can be carried out at the wafer level, at the die level, and at the cartridge level. Because choices for a specific solution will strongly influence the possibilities for other steps, the development of a producitons strategy is far from straightforward. In this project we want to study the possibilities of the individual processes at the three levels mentioned (wafer, die, and cartridge), and in parallel develop a theoretical framework for finding the best strategy in this type of complex production processes.
