553 research outputs found
Addressing domestic violence in primary care: what the physician needs to know
Domestic violence (DV) is quite prevalent and negatively impacts the health and mental wellbeing of those affected. Victims of DV are frequent users of health service, yet they are infrequently recognized. Physicians tend to treat the presenting complaints without addressing the root cause of the problem. Lack of knowledge on adequately managing cases of DV and on appropriate ways to help survivors is commonly presented as a barrier. This article presents the magnitude of the problem of DV in the Arab world, highlights the role of the primary care physician in addressing this problem, and provides practical steps that can guide the clinician in the Arab world in giving a comprehensive and culturally sensitive service to the survivors of DV.Keywords: domestic violence; primary care; Arab world; managing survivors; physicians; mental healt
Length-dependent translocation of polymers through nanochannels
We consider the flow-driven translocation of single polymer chains through
nanochannels. Using analytical calculations based on the de Gennes blob model
and mesoscopic numerical simulations, we estimate the threshold flux for the
translocation of chains of different number of monomers. The translocation of
the chains is controlled by the competition between entropic and hydrodynamic
effects, which set a critical penetration length for the chain before it can
translocate through the channel. We demonstrate that the polymers show two
different translocation regimes depending on how their length under confinement
compares to the critical penetration length. For polymer chains longer than the
threshold, the translocation process is insensitive to the number of monomers
in the chain as predicted in Sakaue {\it et al.}, {\it Euro. Phys. Lett.}, {\bf
72} 83 (2005). However, for chains shorter than the critical length we show
that the translocation process is strongly dependent on the length of the
chain. We discuss the possible relevance of our results to biological
transport.Comment: To appear in Soft Matter. 10 pages 9 Figure
PHYTOCHEMICAL STUDY AND THE ANTIPROLIFERATIVE ACTIVITY OF INULA VULGARIS SPECIES GROWN IN LEBANON
Objective: Cancer represents the second leading cause of death after stroke and heart diseases. Plant extracts have long been used in traditional medicine for the prevention and treatment of many illnesses, including some types of cancer. The aim of this study was to evaluate the antiproliferative effects of ethyl acetate fractions of two Lebanese herbs: Inula viscosa (I. vis) and Inula vulgaris (I. vul).Methods: Plants were extracted with ethanol followed by ethyl acetate, then dried and tested on three cell lines including CaCO2, HepG2, and MCF7, to check for their viability and antiproliferative activity, using trypan blue exclusion and 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assays. Proton (1H) and carbon (13C) nuclear magnetic resonance spectrometry (NMR) were used to identify the compounds that have been isolated from both Inula species.Results: The current findings were consistent for both trypan blue and MTT assays. The results showed that the most potent effect for I. vul was HepG2 (IC50 20 µg/ml, 27 µg/ml), and for I. vis on MCF7 (9 µg/ml, 15 µg/ml) and CaCO2 (12 µg/ml, 22 µg/ml) in the two mentioned assays respectively. However, insignificant differences were observed among the studied plants for each of the evaluated cells indicating comparable potencies. Quercetin, quercetin glycoside, and epicatechin derivatives were isolated by fractionation on column chromatography and identified using NMR spectroscopy.Conclusion: The antiproliferative activities of the two plants could be related to their content that is significant for high levels of secondary metabolites. The identification of those compounds is necessary to establish a relationship between their chemical structures and their activities
Gender based violence (GBV) coordination in a complex, multi-crisis context: a qualitative case study of Lebanon’s compounded crises (2019–2023)
Background: Since 2019 Lebanon has faced multiple compounded crises. Political and social instability, the COVID-19 pandemic, and the Beirut Port explosion, alongside the influx of refugees related to the ongoing Syrian conflict, have resulted in a nationwide economic emergency. In the context of the humanitarian response to the Syrian conflict, the UN and government-led gender-based violence (GBV) task force has coordinated the sub-sector since 2012. The compounded crisis, however, created new challenges for GBV coordination and service delivery, which we explore in this paper. We highlight lessons for strengthening GBV coordination in Lebanon and other complex emergencies.
Methods: We conducted 29 remote in-depth interviews, reviewed key policy documents and observed seven GBV task force meetings. We analysed and presented our findings across three key themes: context-relevant and adaptable coordination mechanisms; coordination to support GBV service delivery; and stakeholders' roles, legitimacy and power.
Results: Parallel response frameworks developed to address the multiple crises, created a complex humanitarian architecture within an increasingly challenging operating context, with some perceived inefficiencies. Positively, coordination was integrated under the established government-UN interagency system and the GBV task force maintained GBV sub-sector coordination. The task force was commended for effectively adapting to the evolving context, including working remotely, maintaining essential GBV services, assessing the compounded crises' impact on programming and adjusting accordingly, and harmonising guidance, tools and approaches. The importance of ensuring a government co-led response was highlighted by both UN and government informants, who pointed to examples where marginalising government leadership compromised coordination effectiveness and sustainability. The participation of local actors had become increasingly important but more difficult, with the impact of the various crises, and remote modalities, challenging service delivery and staff wellbeing
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A Microfabricated Platform for Generating Physiologically-Relevant Hepatocyte Zonation
In vitro liver models have been important tools for more than 40 years for academic research and preclinical toxicity screening by the pharmaceutical industry. Hepatocytes, the highly metabolic parenchymal cells of the liver, are efficient at different metabolic chemistries depending on their relative spatial location along the sinusoid from the portal triad to the central vein. Although replicating hepatocyte metabolic zonation is vitally important for physiologically-relevant in vitro liver tissue and organ models, it is most often completely overlooked. Here, we demonstrate the creation of spatially-controlled zonation across multiple hepatocyte metabolism levels through the application of precise concentration gradients of exogenous hormone (insulin and glucagon) and chemical (3-methylcholanthrene) induction agents in a microfluidic device. Observed gradients in glycogen storage via periodic acid-Schiff staining, urea production via carbamoyl phosphatase synthetase I staining, and cell viability after exposure to allyl alcohol and acetaminophen demonstrated the in vitro creation of hepatocyte carbohydrate, nitrogen, alcohol degradation, and drug conjugation metabolic zonation. This type of advanced control system will be crucial for studies evaluating drug metabolism and toxicology using in vitro constructs
With a Little Help from My Friends: Peer Coaching for Refugee Adolescents and the Role of Social Media
This intervention study investigated how much impact a specific peer-coaching (Peer2Peer) for refugee adolescents has on different factors of well-being for both sides: refugee adolescents (peers, N = 16) and their local peer coaches (buddies, N = 16). Next to pre- and post-tests, four buddies reflected on the process via weekly media diaries. We found that higher peer-loneliness and lower self-esteem was reported for peers in the beginning but these differences disappeared. These results were confirmed by buddies’ media diaries: lang
Characterization of Annona cherimola mill. Seed oil from Madeira Island: a possible biodiesel feedstock
The possibility of using Annona seed oil as an
added value product, namely as a source of biodiesel, is
explored. Milled Annona seeds were extracted with hexane
at room temperature (72 h) and at solvent boiling point
(6 h). Oil content was found to be 25 and 22.4% respec tively. The oil was characterized in terms of lipid compo sition (HPLC–APCI–MS and 13C NMR), resistance to
oxidation and acidity index. FAME composition was
determined by GC–MS and five major peaks were identi fied. Production of biodiesel from Annona’s seed oil was
achieved by base-catalyzed transesterification. Density,
viscosity, refraction coefficient, acid value, cold filter
plugging point, cloud point and oxidation stability were
measured. The iodine value and the ‘‘apparent cetane
number’’ were calculated. Density, viscosity, acid value,
iodine value, cold filter plugging point and cloud point
were within EN14214 specifications and the calculated
‘‘apparent cetane number’’ was also indicative of a suitable
product.info:eu-repo/semantics/publishedVersio
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Towards a three-dimensional microfluidic liver platform for predicting drug efficacy and toxicity in humans
Although the process of drug development requires efficacy and toxicity testing in animals prior to human testing, animal models have limited ability to accurately predict human responses to xenobiotics and other insults. Societal pressures are also focusing on reduction of and, ultimately, replacement of animal testing. However, a variety of in vitro models, explored over the last decade, have not been powerful enough to replace animal models. New initiatives sponsored by several US federal agencies seek to address this problem by funding the development of physiologically relevant human organ models on microscopic chips. The eventual goal is to simulate a human-on-a-chip, by interconnecting the organ models, thereby replacing animal testing in drug discovery and development. As part of this initiative, we aim to build a three-dimensional human liver chip that mimics the acinus, the smallest functional unit of the liver, including its oxygen gradient. Our liver-on-a-chip platform will deliver a microfluidic three-dimensional co-culture environment with stable synthetic and enzymatic function for at least 4 weeks. Sentinel cells that contain fluorescent biosensors will be integrated into the chip to provide multiplexed, real-time readouts of key liver functions and pathology. We are also developing a database to manage experimental data and harness external information to interpret the multimodal data and create a predictive platform
Easier sieving through narrower pores: fluctuations and barrier crossing in flow-driven polymer translocation
We show that the injection of polymer chains into nanochannels becomes easier
as the channel becomes narrower. This counter intuitive result arises because
of a decrease in the diffusive time scale of the chains with increasing
confinement. The results are obtained by extending the de Gennes blob model of
confined polymers, and confirmed by hybrid molecular dynamics -
lattice-Boltzmann simulations.Comment: 5 pages, 3 figure
Multi-Particle Collision Dynamics -- a Particle-Based Mesoscale Simulation Approach to the Hydrodynamics of Complex Fluids
In this review, we describe and analyze a mesoscale simulation method for
fluid flow, which was introduced by Malevanets and Kapral in 1999, and is now
called multi-particle collision dynamics (MPC) or stochastic rotation dynamics
(SRD). The method consists of alternating streaming and collision steps in an
ensemble of point particles. The multi-particle collisions are performed by
grouping particles in collision cells, and mass, momentum, and energy are
locally conserved. This simulation technique captures both full hydrodynamic
interactions and thermal fluctuations. The first part of the review begins with
a description of several widely used MPC algorithms and then discusses
important features of the original SRD algorithm and frequently used
variations. Two complementary approaches for deriving the hydrodynamic
equations and evaluating the transport coefficients are reviewed. It is then
shown how MPC algorithms can be generalized to model non-ideal fluids, and
binary mixtures with a consolute point. The importance of angular-momentum
conservation for systems like phase-separated liquids with different
viscosities is discussed. The second part of the review describes a number of
recent applications of MPC algorithms to study colloid and polymer dynamics,
the behavior of vesicles and cells in hydrodynamic flows, and the dynamics of
viscoelastic fluids
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