The development of eHealth applications requires a new methodological approach, departing from the more conventional methods dedicated to designing health information systems. There is a gap between theories to design persuasive eHealth applications and practices. We consequently advocate an integrated, systematic and practical but scientifically based methodology to design effective persuasive eHealth applications. This approach is being successfully embedded in our educational health informatics program.
Interview ICT &Health: Living labs zijn in opkomst. Deze levende laboratoria zijn realistische experimentele omgevingen, waarin onderwijs, overheden, werkveld en andere partijen samen werken aan innovatieve oplossingen voor problemen. Ook op het gebied van gezondheidszorg en technologie bestaan living labs, zoals de Medical Delta Living Labs. Eén van deze labs is het Medical Delta Living Lab Geriatric Rehabilitation@Home. Het doel is om met de inzet van e-health zelfmanagement en kwaliteit van leven van thuiswonende geriatrische revalidanten te vergroten en hun mantelzorgers beter te ondersteunen.
Telemonitoring is regarded as a means to maintain a relatively high quality of life for independently living elderly. This paper discusses a requirements study of a system to, foremost, telemonitor activities of daily living (ADL) of the elderly. The study utilizes literature and in-depth interviews with medical specialists. From the interview results can be concluded that, besides from elderly’s own input, monitoring different aspects of movement, food consumption and sleep pattern are regarded as most beneficial to the medical specialists.
Nearly all waterborne products, such as food, beverages, pharmaceuticals, paints, biological (medical) samples, cosmetics and wood require preservation to prevent decomposition of the product due to microbial growth. Most non-food preservatives such as isothiazolinones, bronopol, and pyrithiones, are derived from oil and are increasingly more strictly regulated due to hazards such as ecotoxicity, sensibilization and development of allergies. The low legally permitted concentrations will not only become too low to realize preservation, they will also induce antimicrobial resistance. A chemical transition towards new, innovative, biobased, and eco-friendly preservatives is therefore required. Wydo NBD is dedicated to research towards sustainable ingredients for waterborne paints. For this, together with the Hanze University, non-hazardous, eco-friendly and biobased natural preservatives will be identified and further developed towards marketable products. The knowledge obtained in this project will contribute to the development of biological (paint) conservatives knowledge and improvement of current production methods of Wydo, with the potential for wider application in food and medical products. This project aims to identify natural antimicrobial additives and consists of three consecutive stages. First, an extensive, unbiased bioinformatics guided literature mining will be performed to find relationships between biological antimicrobial compounds and microbes found in paint. The most promising antimicrobials from this mining will be made available by chemical synthesis. Subsequently, the compounds will be assessed for their potential as novel natural preservatives for waterborne paints, by testing for their antimicrobial activity and stability.
Nearly all waterborne products, such as food, beverages, pharmaceuticals, paints, biological (medical) samples, cosmetics and wood require preservation to prevent decomposition of the product due to microbial growth. Most non-food preservatives such as isothiazolinones, bronopol, and pyrithiones, are derived from oil and are increasingly more strictly regulated due to hazards such as ecotoxicity, sensibilization and development of allergies. The low legally permitted concentrations will not only become too low to realize preservation, they will also induce antimicrobial resistance. A chemical transition towards new, innovative, biobased, and eco-friendly preservatives is therefore required. Wydo NBD is dedicated to research towards sustainable ingredients for waterborne paints. For this, together with the Hanze University, non-hazardous, eco-friendly and biobased natural preservatives will be identified and further developed towards marketable products. The knowledge obtained in this project will contribute to the development of biological (paint) conservatives knowledge and improvement of current production methods of Wydo, with the potential for wider application in food and medical products.This project aims to identify natural antimicrobial additives and consists of three consecutive stages. First, an extensive, unbiased bioinformatics guided literature mining will be performed to find relationships between biological antimicrobial compounds and microbes found in paint. The most promising antimicrobials from this mining will be made available by chemical synthesis. Subsequently, the compounds will be assessed for their potential as novel natural preservatives for waterborne paints, by testing for their antimicrobial activity and stability
