In Nederland gebruiken 65 plussers drie keer zoveel medicijnen als de gemiddelde Nederlander. Voor 75 plussers geldt dat zij vijf keer zoveel medicijnen gebruiken. In combinatie met leeftijdsgerelateerde natuurlijke veranderingen in het metabolisme, verminderde cognitie, multi-morbiditeit, verminderde nierfunctie, polyfarmacie en verminderde capaciteit tot herstel, zijn ouderen kwetsbaar voor medicatiegerelateerde problemen. Thuiszorg cliënten zijn doorgaans ouder dan 65 jaar, waardoor er vaker sprake is van polyfarmacie en verminderde cognitie. Daarom bevinden zich vooral in deze populatie cliënten, die kwetsbaar zijn voor medicatiegerelateerde problemen. Verschillende studies hebben aangetoond dat huisartsen en apothekers een bijdrage kunnen leveren aan het herkennen van medicatiegerelateerde problemen bij hun patiënten. Er is echter weinig aandacht besteed aan het vroegsignaleren van observaties die kunnen duiden op een medicatie gerelateerd probleem door thuiszorgmedewerkers. In aanvulling op de huisarts en apotheker zouden thuiszorgmedewerkers, die hun patiënten op regelmatige basis thuis bezoeken, een bijdrage kunnen leveren aan het vroegsignaleren van potentiële medicatiegerelateerde problemen. Het doel van dit proefschrift is het: 1. verkennen van de opvattingen van ouderen ten aanzien van hun medicatie en hun medicatie management capaciteit gerelateerd aan zelfmanagement vaardigheden en cognitie; 2. beschrijven van de kennis, houding en medicatie management praktijk van thuiszorgmedewerkers; 3. vaststellen of een gestandaardiseerde observatielijst leidt tot vroegsignalering van potentiële medicatiegerelateerde problemen in de thuiszorg
In this review, we present the growing scientific evidence showing the importance of protein and amino acid provision in nutritional support and their impact on preservation of muscle mass and patient outcomes.
With a market demand for low cost, easy to produce, flexible and portable applications in healthcare, energy, biomedical or electronics markets, large research programs are initiated to develop new technologies to provide this demand with new innovative ideas. One of these fast developing technologies is organic printed electronics. As the term printed electronics implies, functional materials are printed via, e.g. inkjet, flexo or gravure printing techniques, on to a substrate material. Applications are, among others, organic light emitting diodes (OLED), sensors and Lab-on-a-chip devices. For all these applications, in some way, the interaction of fluids with the substrate is of great importance. The most used substrate materials for these low-cost devices are (coated) paper or plastic. Plastic substrates have a relatively low surface energy which frequently leads to poor wetting and/or poor adhesion of the fluids on the substrates during printing and/ or post-processing. Plasma technology has had a long history in treating materials in order to improve wetting or promote adhesion. The µPlasma patterning tool described in this thesis combines a digital inkjet printing platform with an atmospheric dielectric barrier discharge plasma tool. Thus enabling selective and local plasma treatment, at atmospheric pressure, of substrates without the use of any masking materials. In this thesis, we show that dependent on the gas composition the substrate surface can either be functionalized, thus increasing its surface energy, or material can be deposited on the surface, lowering its surface energy. Through XPS and ATR-FTIR analysis of the treated (polymer) substrate surfaces, chemical modification of the surface structure was confirmed. The chemical modification and wetting properties of the treated substrates remained present for at least one month after storage. Localized changes in wettability through µPlasma patterning were obtained with a resolution of 300µm. Next to the control of wettability of an ink on a substrate in printed electronics is the interaction of ink droplets with themselves of importance. In printing applications, coalescence of droplets is standard practice as consecutive droplets are printed onto, or close to each other. Understanding the behaviour of these droplets upon coalescence is therefore important, especially when the ink droplets are of different composition and/or volume. For droplets of equal volume, it was found that dye transport across the coalescence bridge could be fully described by diffusion only. This is as expected, as due to the droplet symmetry on either side of the bridge, the convective flows towards the bridge are of equal size but opposite in direction. For droplets of unequal volume, the symmetry across the bridge is no longer present. Experimental analysis of these merging droplets show that in the early stages of coalescence a convective flow from the small to large droplet is present. Also, a smaller convective flow of shorter duration from the large into the small droplet was identified. The origin of this flow might be due to the presence of vortices along the interface of the bridge, due to the strong transverse flow to open the bridge. To conclude, three potential applications were showcased. In the first application we used µPlasma patterning to create hydrophilic patterns on hydrophobic dodecyl-trichlorosilane (DTS) covered glass. Capillaries for a Lab-on-a-chip device were successfully created by placing two µPlasma patterned glass slides on top of each other separated by scotch tape. In the second application we showcased the production of a RFID tag via inkjet printing. Functional RFID-tags on paper were created via inkjet printing of silver nanoparticle ink connected to an integrated circuit. The optimal operating frequency of the produced tags is in the range of 860-865 MHz, making them usable for the European market, although the small working range of 1 m needs further improvement. Lastly, we showed the production of a chemresistor based gas sensor. In house synthesised polyemeraldine salt (PANi) was coated by hand on top of inkjet printed silver electrodes. The sensor proved to be equally sensitive to ethanol and water vapour, reducing its selectivity in detecting changes in gas composition.
