1,406 research outputs found
Empowering self-care: A handbook for pharmacists
Supporting and empowering individuals to responsibly engage in self-care is an important part of pharmacists’ daily practice around the world. Self-care spans the whole wellness spectrum, from disease prevention to the management of symptoms and common ailments. It also encompasses interventions ranging from advice on non-prescription medicines and medical devices (often described as “over the counter”) to education on healthy diets, hygiene and mindfulness practices.1 The ability to engage in self-care empowers individuals to act on their own health and well-being, and it encourages the inclusion of their input and specific needs when making healthcare decisions. Self-care empowers people and societies to transform health. Moreover, to promote health equity, health literacy is needed, and there is significant room for improvement and for greater research in this field. Self-care has been conceptualised through internationally recognised frameworks.2 The Self-Care Matrix is a widely accessible framework that conveys the concept of the “totality” of self-care by highlighting the inter-relationships between four cardinal dimensions of self-care. These dimensions are: 1. Person-centred self-care activities; 2. Self-care behaviours; 3. Self-care in the context of resource utilisation; and 4. The prevailing environment as a key enabler of self-care practice. Self-care is an important contributor to universal health coverage (UHC) through savings in healthcare expenditure and the reallocation of resources by means of reduced use and pressure on healthcare systems. For example, patient education and assessment conducted by pharmacists in addition to supporting the informed choice of non-prescription medicines could relieve the burden placed on healthcare systems, such as in primary care facilities or emergency departments, from patients seeking consultation for minor ailments, and lessen the reliance on prescription-only medicines
Random-walk simulation of cell migration and proliferation
Cell migration and proliferation has been modelled in several works of the literature as a process similar to diffusion. However, diffusion models to simulate the proliferation and migration of cells tend to create a homogeneous distribution in the cell density, but this result is not real. Diffusion is not the mechanism of cell dispersal: cells disperse by crawling or proliferation, or are transported in a moving fluid. The use of stochastic models or other (cellular automata, models particles, etc...) can modify this limitation. Therefore, this paper presents a stochastic model (random-walk) to simulate the proliferation and migration of cells. Both processes are considered as completely stochastic as discrete. The model developed aims to predict the behavior of in vitro cell cultures performed with adult muscle satellite cells. Non homogeneous distribution of cells has been observed inside the culture well. Using previous stochastic model we have been able to predict the non homogeneous cell distribution and accurate quantitative results have been computed. In a future, the model will allow us to incorporate other aspects such as cell differentiation, incorporate several cell populations simultaneously, etc
Identificación y chequeo de parentesco en la especie canina mediante análisis de ADN
Este trabajo presenta los primeros resultados en España de un estudio de identificación y chequeo de parentesco en la especie canina mediante microsatélites (polimorfismos del ADN). Para este trabajo se han utilizado 79 animales, 48 de los cuales no están emparentados y 31 que pertenecen a 3 familias, en los que Se han analizado 11 microsatélites. Los resultados indican la posibilidad de utilizar estos marcadores en test de paternidad con resultados altamente fiables (99%), si se utilizan más de 7 microsatélites.This work presents the first results in Spain of an study concerning identity and parentage test in dogs by microsatellites (ONA polymorphisms). 79 animals have been used for this work, (48 unrelated dogs and 31 dogs from 3 families). Our main conclusion is the necessity of using more than 7 microsatellites in arder to obtain results with 99% of garanty
Public libraries to promote public health and wellbeing: A cross-sectional study of community-dwelling adults
Purpose of research: To explore the potential of libraries as community hubs to promote mental and physical health and wellbeing. Design: Cross-sectional online survey and interview-based study with community-dwelling adults and library staff. Methods: We analysed data from 605 respondents using a 14-item electronic survey and conducted interviews with 12 library users and staff to gauge perceptions. Descriptive statistics and thematic analysis were used to identify key trends and emergent themes. Results: Libraries remain popular and are considered a'safe place' by members of the community, irrespective of whether they are frequent users of services. Library users' lack of awareness of community-facing services could act as a hurdle to improving community health and wellbeing. Targeted engagement with residents is needed to increase awareness of libraries' services, including community interventions to help tackle loneliness and inequalities in digital and health literacy. Library staff often did not feel involved in important decision-making. Various barriers, drivers and practical recommendations were identied to leverage libraries as hubs to promote community health and wellbeing. Conclusion: Libraries already offer a variety of resources that either directly or indirectly support the health and wellbeing of community-dwelling adults and young people, but public awareness of these services is limited. As we navigate postpandemic recovery, libraries can serve as platforms for community engagement, fostering resilience, mental health support, and reducing social isolation. Recognising libraries' untapped potential can lead to healthier communities and improved wellbeing
A Mechanistic Approach to Crystallite Length as Related to Cell-Wall Structure
A tentative mechanistic model is proposed that relates variation in crystallite length in wood to some physical conditions under which the crystallite may have been formed, namely the curvature and ultrastructure of the microfibril. Over most of the experimental data range, representing both hardwood and softwood samples, the model allows reasonably good prediction of the effect of crystallite orientation angle and radial distance from the cell center. As the angle increases and radial distance decreases, the average crystallite length becomes smaller
Prediction of Modulus of Rupture from Modulus of Elasticity for Some Egyptian Hardwoods
The MOE and MOR of 112 air-dry small, clear specimens (2 x 2 x 30 cm) of six species of hardwoods grown in Egypt were determined. Simple linear regression analysis revealed that MOR is highly correlated with MOE of Eucalyptus camaldulensis, Khaya senegalensis, Tamarix articulata and Casuarina spp. However, the "r" values for Jacaranda ovalifolia and Melia azedarach were not significant. In addition, covariance analysis showed that the six regressions equations have different slopes and Y-intercepts and therefore cannot be grouped. The only grouping was that between the regression lines of the first three species mentiones above.Introducing specific gravity in the regression equation did not result in improving the correlation coefficients, except in the case of Casuarina spp. Using specific gravity alone for predicting the MOR was found to be unreliable due to the relatively low "r" values obtained for the species except in the case of Casuarina spp
Leveraging community assets to tackle social isolation and loneliness: a needs assessment of the London Borough of Hammersmith & Fulham
This study is an investigation of factors that influence the routine adoption and diffusion of evidence-based asset-based community development (ABCD) initiatives to combat social isolation and loneliness in the contemporary setting (using LBH&F as a case study
A novel portable device to measure the temperature of both the inner and the outer tubes of a parabolic receiver in the field
The performance of parabolic trough (PT) receiver tubes (RT) has a direct impact on Solar Thermal Energy (STE) plant production. As a result, one major need of operation and maintenance (O&M) in STE plants is to monitor the state of the receiver tube as a key element in the solar field. However the lack of specific devices so far has limited the proper evaluation of operating receiver tubés thermal performance. As a consequence non-accurate approximations have been accepted until now using infrared thermal images of the glass outer tube. In order to fulfill this need, Abengoa has developed a unique portable device for evaluating the thermal performance and vacuum state of parabolic trough receiver tubes placed in the field. The novel device described in this paper, simultaneously provides the temperature of both the inner steel tube and the outer glass tube enabling a check on manufacturers specifications. The on-field evaluation of any receiver tube at any operating temperature has become possible thanks to this new measuring device. The features and usability of this new measurement system as a workable portable device in operating solar fields provide a very useful tool for all companies in the sector contributing to technology progress. The originality of the device, patent pending P201431969, is not limited to the CSP sector, also having scientific significance in the general measuring instruments field. This paper presents the work carried out to develop and validate the device, also detailing its functioning properties and including the excellent results obtained in the laboratory to determine its accuracy and standard deviation. This information was validated with data collected by O&M teams using this instrument in a commercial CSP plant. The relevance of the device has been evidenced by evaluating a wide sample of RT and the results are discussed in this paper. Finally, all the on field collected data is used to demonstrate the high impact that using this unique portable device will have on a parabolic trough solar power plant
The CLIP-domain serine protease homolog SPCLIP1 regulates complement recruitment to microbial surfaces in the malaria mosquito Anopheles gambiae
The complement C3-like protein TEP1 of the mosquito Anopheles gambiae is required for defense against malaria parasites and bacteria. Two forms of TEP1 are present in the mosquito hemolymph, the full-length TEP1-F and the proteolytically processed TEP1(cut) that is part of a complex including the leucine-rich repeat proteins LRIM1 and APL1C. Here we show that the non-catalytic serine protease SPCLIP1 is a key regulator of the complement-like pathway. SPCLIP1 is required for accumulation of TEP1 on microbial surfaces, a reaction that leads to lysis of malaria parasites or triggers activation of a cascade culminating with melanization of malaria parasites and bacteria. We also demonstrate that the two forms of TEP1 have distinct roles in the complement-like pathway and provide the first evidence for a complement convertase-like cascade in insects analogous to that in vertebrates. Our findings establish that core principles of complement activation are conserved throughout the evolution of animals
Mathematical Description of the Change in Properties of Casuarina Wood Upon Exposure to Gamma Radiation. 1. Changes in the Compressive and Tensile Strength
Casuarina cunninghamiana specimens were exposed to gamma-radiation doses ranging from 104 to 108 rad and tested in compression and tension parallel to grain. The percentage values of the irradiated specimens relative to that of the matched control (Y) were determined. The relationship between (Y) and log gamma radiation dose (X) was represented mathematically by the equation: Y = aXbcx. This equation described the change in compressive and tensile strength very well as was detected from the high correlation coefficients. Generally these properties increased slightly at low levels of radiation, reached a maximum, then decreased gradually thereafter. The reduction in tensile strength was more pronounced than in compressive strength.The threshold dose, i.e., the dose beyond which the properties began to decrease, was calculated. This dose ranged from 3.69 x 106 to 3.76 x 106 rad for compressive strength properties and from 1.51 x 106 to 1.70 x 106 rad for tensile strength properties. This indicated that irradiated casuarina wood had a greater resistance to compression than to tension
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