Diagnosis of soil-transmitted helminth (STH) and schistosome infections relies largely on conventional microscopy which has limited sensitivity, requires highly trained personnel and is error-prone... Show moreDiagnosis of soil-transmitted helminth (STH) and schistosome infections relies largely on conventional microscopy which has limited sensitivity, requires highly trained personnel and is error-prone. Rapid advances in miniaturization of optical systems, sensors and proces-sors have enhanced research and development of digital and automated microscopes suitable for the detection of these diseases in resource-limited settings. While some studies have reported proof-of-principle results, others have evaluated the performance of working proto-types in field settings. The extensive commercialization of these innovative devices has, how-ever, not yet been achieved. This review provides an overview of recent publications (2010- 2022) on innovative field applicable optical devices which can be used for the diagnosis of STH and schistosome infections. Using an adapted technology readiness level (TRL) scale tak -ing into account the WHO target product profile (TPP) for these diseases, the developmental stages of the devices were ranked to determine the readiness for practical applications in field settings. From the reviewed 18 articles, 19 innovative optical devices were identified and ranked. Almost all of the devices (85%) were ranked with a TRL score below 8 indicating that, most of the devices are not ready for commercialization and field use. The potential lim-itations of these innovative devices were discussed. We believe that the outcome of this review can guide the end-to-end development of automated digital microscopes aligned with the WHO TPP for the diagnosis of STH and schistosome infections in resource-limited settings. Show less
Diagnosis of soil-transmitted helminth (STH) and schistosome infections relies largely on conventional microscopy which has limited sensitivity, requires highly trained personnel and is error-prone... Show moreDiagnosis of soil-transmitted helminth (STH) and schistosome infections relies largely on conventional microscopy which has limited sensitivity, requires highly trained personnel and is error-prone. Rapid advances in miniaturization of optical systems, sensors and proces-sors have enhanced research and development of digital and automated microscopes suitable for the detection of these diseases in resource-limited settings. While some studies have reported proof-of-principle results, others have evaluated the performance of working proto-types in field settings. The extensive commercialization of these innovative devices has, how-ever, not yet been achieved. This review provides an overview of recent publications (2010- 2022) on innovative field applicable optical devices which can be used for the diagnosis of STH and schistosome infections. Using an adapted technology readiness level (TRL) scale tak -ing into account the WHO target product profile (TPP) for these diseases, the developmental stages of the devices were ranked to determine the readiness for practical applications in field settings. From the reviewed 18 articles, 19 innovative optical devices were identified and ranked. Almost all of the devices (85%) were ranked with a TRL score below 8 indicating that, most of the devices are not ready for commercialization and field use. The potential lim-itations of these innovative devices were discussed. We believe that the outcome of this review can guide the end-to-end development of automated digital microscopes aligned with the WHO TPP for the diagnosis of STH and schistosome infections in resource-limited settings. Show less
Bingen, B.O.; Amri, I. al; Montero Cabezas, J.M.; Kley, F. van der 2022
Coronary access difficulty and stent compression by the juxtaposed aortic valve leaflet hamper percutaneous management of delayed coronary artery obstruction (CAO) after valve-in-valve (Edwards... Show moreCoronary access difficulty and stent compression by the juxtaposed aortic valve leaflet hamper percutaneous management of delayed coronary artery obstruction (CAO) after valve-in-valve (Edwards Sapien 3 in St. Jude Trifecta) transcatheter aortic valve replacement (TAVR). Here, we present a case of delayed post-TAVR CAO treated with intravascular lithotripsy and multistenting to overcome stent compression by the adjacent calcified leaflet. Show less
Liposomes can be seen as ideal carriers for anti-inflammatory drugs as their ability to (passively) target sites of inflammation and release their content to inflammatory target cells enables them... Show moreLiposomes can be seen as ideal carriers for anti-inflammatory drugs as their ability to (passively) target sites of inflammation and release their content to inflammatory target cells enables them to increase local efficacy with only limited systemic exposure and adverse effects. Nonetheless, few liposomal formulations seem to reach the clinic. The current review provides an overview of the more recent innovations in liposomal treatment of rheumatoid arthritis, psoriasis, vascular inflammation, and transplantation. Cutting edge developments include the liposomal delivery of gene and RNA therapeutics and the use of hybrid systems where several liposomal bilayer features, or several drugs, are combined in a single formulation. The majority of the articles reviewed here focus on preclinical animal studies where proof-of-principle of an improved efficacy-safety ratio is observed when using liposomal formulations. A few clinical studies are included as well, which brings us to a discussion about the challenges of clinical translation of liposomal nanomedicines in the field of inflammatory diseases. Show less
Vandekerckhove, P.; Mul, M. de; Groot, L. de; Elzevier, H.W.; Fabels, B.; Mohammad, S.H.; ... ; Manten-Horst, E. 2020
Purpose: Participatory design (PD) is a collective creative design process involving designers and nondesigners. There is limited reporting on the experience of using PD for adolescent and young... Show morePurpose: Participatory design (PD) is a collective creative design process involving designers and nondesigners. There is limited reporting on the experience of using PD for adolescent and young adult (AYA) care. This study summarizes lessons from employing PD to develop care for AYAs with cancer.Methods: A qualitative multiple-case study method was conducted of three PD processes addressing food (FfC), intimacy and sexuality (I&S), and integrative medicine (IM) in caring for AYAs with cancer.Results: Local key stakeholders, who were exposed to a problem and had not been successful at solving it individually, were recruited to "dream" together. Through this synergy, a shared understanding of the problem and a joint mission emerged to find a solution. PD tools were used to develop a problem definition. An open mind and explorative research helped to understand the problems, and stakeholders were managed such that idea-sharing and learning were enabled. Designers translated ideas into prototypes. The PD process was prolonged due to the hierarchical hospital environment, business considerations, and additionally required evidence. The FfC program produced an effective new food service for the whole hospital. The I&S initiative developed a podcast, two articles, and a prototype website. The IM project developed a pilot study.Conclusions: For a PD process to successfully develop care for AYAs, one needs to use designers and skilled people, PD tools, and an open-ended approach to visualize and materialize new forms of care. Furthermore, recruitment and facilitation techniques help leverage knowledge and create a synergy in a democratic environment between stakeholders. Show less
Despite the large literature on gender differences in politics, there have been relatively few empirical studies testing the effects of gender in public administration. This paper examines how male... Show moreDespite the large literature on gender differences in politics, there have been relatively few empirical studies testing the effects of gender in public administration. This paper examines how male and female public managers show attitudinal differences toward innovation in the public sector. We hypothesize that male and female managers differ in three aspects. Firstly, female managers are more result-oriented than rule-following, and more oriented toward societal interests. Secondly, female public managers are more open to new ideas and creativity, and more willing to challenge the status quo. Yet, thirdly, female leaders are less eager to take risks when would-be innovations may put their organizations in peril. Thus, we argue that female managers are more prudent and entrepreneurial than their male counterparts. We test these hypotheses using a data set of 5,909 senior public managers from 20 European countries. The results of multilevel model analysis find statistically significant gender differences in attitudes toward innovation. Despite the small size of gender impacts, our findings challenge prevailing stereotypes on women’s entrepreneurial attitudes. Show less
Fiorino, C.; Guckemberger, M.; Schwarz, M.; Heide, U.A. van der; Heijmen, B. 2020
Technology has a pivotal role in the continuous development of radiotherapy. The long road toward modern 'high-tech' radiation oncology has been studded with discoveries and technological... Show moreTechnology has a pivotal role in the continuous development of radiotherapy. The long road toward modern 'high-tech' radiation oncology has been studded with discoveries and technological innovations that resulted from the interaction of various disciplines. In the last decades, a dramatic technology-driven revolution has hugely improved the capability of accurately and safely delivering complex-shaped dose distributions. This has contributed to many clinical improvements, such as the successful management of lung cancer and oligometastatic disease through stereotactic body radiotherapy. Technology-driven research is an active and lively field with promising potential in several domains, including image guidance, adaptive radiotherapy, integration of artificial intelligence, heavy-particle therapy, and 'flash' ultra-high dose-rate radiotherapy. The evolution toward personalized Oncology will deeply influence technology-driven research, aiming to integrate predictive models and omics analyses into fast and efficient solutions to deliver the best treatment for each single patient. Personalized radiation oncology will need affordable technological solutions for middle-/low-income countries, as these are expected to experience the highest increase of cancer incidence and mortality. Moreover, technology solutions for automation of commissioning, quality assurance, safety tests, image segmentation, and plan optimization will be required. Although a large fraction of cancer patients receive radiotherapy, this is certainly not reflected in the worldwide budget for radiotherapy research. Differently from the pharmaceutical companies-driven research, resources for research in radiotherapy are highly limited to equipment vendors, who can, in turn, initiate a limited number of collaborations with academic research centers. Thus, enhancement of investments in technology-driven radiotherapy research via public funds, national governments, and the European Union would have a crucial societal impact. It would allow for radiotherapy to further strengthen its role as a highly effective and cost-efficient cancer treatment modality, and it could facilitate a rapid and equalitarian large-scale transfer of technology to clinic, with direct impact on patient care. Show less
Gelderen, M.J. van; Nijdam, M.J.; Vermetten, E. 2018