358 research outputs found
In vitro dissolution methods for hydrophilic and hydrophobic porous silicon microparticles
Porous silicon (PSi) is an innovative inorganic material that has been recently developed for various drug delivery systems. For example, hydrophilic and hydrophobic PSi microparticles have been utilized to improve the dissolution rate of poorly soluble drugs and to sustain peptide delivery. Previously, the well-plate method has been demonstrated to be a suitable in vitro dissolution method for hydrophilic PSi particles but it was not applicable to poorly wetting hydrophobic thermally hydrocarbonized PSi (THCPSi) particles. In this work, three different in vitro dissolution techniques, namely centrifuge, USP Apparatus 1 (basket) and well-plate methods were compared by using hydrophilic thermally carbonized PSi (TCPSi) microparticles loaded with poorly soluble ibuprofen or freely soluble antipyrine. All the methods showed a fast and complete or nearly complete release of both model compounds from the TCPSi microparticles indicating that all methods described in vitro dissolution equally. Based on these results, the centrifuge method was chosen to study the release of a peptide (ghrelin antagonist) from the THCPSi microparticles since it requires small sample amounts and achieves good particle suspendability. Sustained peptide release from the THCPSi microparticles was observed, which is in agreement with an earlier in vivo study. In conclusion, the centrifuge method was demonstrated to be a suitable tool for the evaluation of drug release from hydrophobic THCPSi particles, and the sustained peptide release from THCPSi microparticles was detected
First-principles study of the atomic and electronic structure of the Si(111)-(5x2-Au surface reconstruction
We present a systematic study of the atomic and electronic structure of the
Si(111)-(5x2)-Au reconstruction using first-principles electronic structure
calculations based on the density functional theory. We analyze the structural
models proposed by Marks and Plass [Phys. Rev. Lett.75, 2172 (1995)], those
proposed recently by Erwin [Phys. Rev. Lett.91, 206101 (2003)], and a
completely new structure that was found during our structural optimizations. We
study in detail the energetics and the structural and electronic properties of
the different models. For the two most stable models, we also calculate the
change in the surface energy as a function of the content of silicon adatoms
for a realistic range of concentrations. Our new model is the energetically
most favorable in the range of low adatom concentrations, while Erwin's "5x2"
model becomes favorable for larger adatom concentrations. The crossing between
the surface energies of both structures is found close to 1/2 adatoms per 5x2
unit cell, i.e. near the maximum adatom coverage observed in the experiments.
Both models, the new structure and Erwin's "5x2" model, seem to provide a good
description of many of the available experimental data, particularly of the
angle-resolved photoemission measurements
Plasmon tunability in metallodielectric metamaterials
The dielectric properties of metamaterials consisting of periodically
arranged metallic nanoparticles of spherical shape are calculated by rigorously
solving Maxwell's equations. Effective dielectric functions are obtained by
comparing the reflectivity of planar surfaces limiting these materials with
Fresnel's formulas for equivalent homogeneous media, showing mixing and
splitting of individual-particle modes due to inter-particle interaction.
Detailed results for simple cubic and fcc crystals of aluminum spheres in
vacuum, silver spheres in vacuum, and silver spheres in a silicon matrix are
presented. The filling fraction of the metal f is shown to determine the
position of the plasmon modes of these metamaterials. Significant deviations
are observed with respect to Maxwell-Garnett effective medium theory for large
f, and multiple plasmons are predicted to exist in contrast to Maxwell-Garnett
theory.Comment: 6 pages, 4 figure
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‘Hey, teach these kids to eat their own food!’: Institutional intergroup contact in immigrant mothers' talk
Although informal segregation often persists in multiethnic neighbourhoods, local institutions offering public services may act as an important setting for intergroup contact. Therefore, we studied how immigrant mothers of young children discursively construct institutional intergroup contact with workers of public playgrounds and kindergartens. We conducted longitudinal interviews with 10 immigrant mothers three times over the period of a year in 2 multi-ethnic neighbourhoods in Helsinki, Finland. Using Critical Discursive Psychology, we analysed respondents' talk about the encounters and identified three interpretative repertoires: 'contact as asserting rights', 'contact as helping', and 'contact as cultural rectification'. Our analysis showed how mothers positioned themselves and the workers differently in terms of agency and power in each repertoire. Our findings stress the importance of studying people's own sense-making of institutional contact, with different roles for participants, and that construction of agency within institutional contact is important for building equal membership in society. Please refer to the Supplementary Material section to find this article's Community and Social Impact Statement
QUANTUM SIZE EFFECT IN BISMUTH NANOSTRUCTURES
Here we experimentally demonstrate that in single-crystalline semimetal bismuth nanostructures the electronic resistance non-monotonously increases with reduction of the size of the samples. The experimental findings are in reasonable agreement with theory predictions.Работа была подготовлена в ходе проведения исследований в рамках программы «Научный фонд Национального исследовательского университета Высшая школа экономики (НИУ ВШЭ)» в 2016-17 гг. НУГ № 16-05-0029 «Физика низкоразмерных квантовых систем»
Luotanko vai enkö luota? Nuorten luottamus sosiaalisessa mediassa leviävään informaatioon ja siihen liittyviä tekijöitä.
The increasing role that social media plays as a source of news and information has both positive and negative effects from the viewpoint of democratic societies. As sharing information on social media is easy, it has also become easier to spread false information. False news, which can render manipulation of people’s views and thoughts remarkably easy, can be extremely challenging to detect. We approached youngsters’ trust in social media content as a potential risk factor; trust can reduce uncertainty and suspicion of information and thus predict the spread of disinformation and conspiracy theories. This may have negative effects on societal security. We aimed to examine what factors explain Finnish youngsters’ (15–19 years) trust in news and information in social media. The analysis was based on a survey (N=800) collected in 2019– 2020. Using regression analysis we found four factors that were positively associated with youngsters’ trust in news and information in social media; trust in traditional media, daily use of social media, following social media influencers, and the belief that approval ratings predict the trustworthiness of news. In addition, the belief that social media gives a distorted view of other people’s lives was negatively connected to trust in news and information. From a national security perspective, youngsters’ social media use is often harmless. However, as their identities and worldviews are still developing, they may act as a target group for information campaigns which aim to undermine the stability of society and disrupt national security. Therefore, it is crucial to understand more about youngsters’ trust in social media content and their ability to detect false information
Keratoendotheliitis Fugax Hereditaria : A Novel Cryopyrin-Associated Periodic Syndrome Caused by a Mutation in the Nucleotide-Binding Domain, Leucine-Rich Repeat Family, Pyrin Domain-Containing 3 (NLRP3) Gene
PURPOSE: To describe the phenotype and the genetic defect in keratoendotheliitis fugax hereditaria, an autosomal dominant keratitis that periodically affects the corneal endothelium and stroma, leading in some patients to opacities and decreased visual acuity. DESIGN: Cross-sectional, hospital-based study. METHODS: PATIENT POPULATION: Thirty affected and 7 unaffected subjects from 7 families, and 4 sporadic patients from Finland. OBSERVATION PROCEDURES: Ophthalmic examination and photography, corneal topography, specular microscopy, and optical coherence tomography in 34 patients, whole exome sequencing in 10 patients, and Sanger sequencing in 34 patients. MAIN OUTCOME MEASURES: Clinical phenotype, disease causing genetic variants. RESULTS: Unilateral attacks of keratoendotheliitis typically occurred 1-6 times a year (median, 2.5), starting at a median age of 11 years (range, 5-28 years), and lasted for 1-2 days. The attacks were characterized by cornea pseudoguttata and haze in the posterior corneal stroma, sometimes with a mild anterior chamber reaction, and got milder and less frequent in middle age. Seventeen (50%) patients had bilateral stroma! opacities. The disease was inherited as an autosomal dominant trait. A likely pathogenic variant c.61G > C in the NLRP3 gene, encoding cryopyrin, was detected in all 34 tested patients and segregated with the disease. This variant is present in both Finnish and non-Finnish European populations at a frequency of about 0.02% and 0.01%, respectively. CONCLUSION: Keratoendotheliitis fugax hereditaria is an autoinflammatory cryopyrin-associated periodic syndrome caused by a missense mutation c.61G > C in exon 1 of NLRP3 in Finnish patients. It is additionally expected to occur in other populations of European descent. ((c) 2018 The Author(s). Published by Elsevier Inc.Peer reviewe
Treatment of infantile spasms: emerging insights from clinical and basic science perspectives.
Infantile spasms is an epileptic encephalopathy of early infancy with specific clinical and electroencephalographic (EEG) features, limited treatment options, and a poor prognosis. Efforts to develop improved treatment options have been hindered by the lack of experimental models in which to test prospective therapies. The neuropeptide adrenocorticotropic hormone (ACTH) is effective in many cases of infantile spasms, although its mechanism(s) of action is unknown. This review describes the emerging candidate mechanisms that can underlie the therapeutic effects of ACTH in infantile spasms. These mechanisms can ultimately help to improve understanding and treatment of the disease. An overview of current treatments of infantile spasms, novel conceptual and experimental approaches to infantile spasms treatment, and a perspective on remaining clinical challenges and current research questions are presented here. This summary derives from a meeting of specialists in infantile spasms clinical care and research held in New York City on June 14, 2010
A Rare Disease Patient Manager
ABSTRACT publicado: 6th International Conference on Practical Applications of Computational Biology & Bioinformatics (PACBB. Salamanca, 28-30 Março 2012The personal health implications behind rare diseases are seldom considered
in widespread medical care. The low incidence rate and complex treatment
process makes rare disease research an underrated field in the life sciences. However,
it is in these particular conditions that the strongest relations between genotypes
and phenotypes are identified. The rare disease patient manager, detailed in
this manuscript, presents an innovative perspective for a patient-centric portal integrating
genetic and medical data. With this strategy, patient’s digital records are
transparently integrated and connected to wet-lab genetics research in a seamless
working environment. The resulting knowledge base offers multiple data views,
geared towards medical staff, with patient treatment and monitoring data; genetics
researchers, through a custom locus-specific database; and patients, who for once
play an active role in their treatment and rare diseases research
Distribution of immunodeficiency fact files with XML – from Web to WAP
BACKGROUND: Although biomedical information is growing rapidly, it is difficult to find and retrieve validated data especially for rare hereditary diseases. There is an increased need for services capable of integrating and validating information as well as proving it in a logically organized structure. A XML-based language enables creation of open source databases for storage, maintenance and delivery for different platforms. METHODS: Here we present a new data model called fact file and an XML-based specification Inherited Disease Markup Language (IDML), that were developed to facilitate disease information integration, storage and exchange. The data model was applied to primary immunodeficiencies, but it can be used for any hereditary disease. Fact files integrate biomedical, genetic and clinical information related to hereditary diseases. RESULTS: IDML and fact files were used to build a comprehensive Web and WAP accessible knowledge base ImmunoDeficiency Resource (IDR) available at . A fact file is a user oriented user interface, which serves as a starting point to explore information on hereditary diseases. CONCLUSION: The IDML enables the seamless integration and presentation of genetic and disease information resources in the Internet. IDML can be used to build information services for all kinds of inherited diseases. The open source specification and related programs are available at
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