420 research outputs found

    Construction of Cell-Resistant Surfaces by Immobilization of Poly(ethylene glycol) on Gold

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    Considerable effort has been expended in efforts to create surfaces that resist the adsorption of proteins and cells for biomedical applications. The majority of such work has focused on surfaces constructed from bulk polymers or thin polymer films. However, the fabrication of surfaces via self-assembled monolayers (SAMs) has attracted considerable interest because of the robustness, versatility, and wide-ranging applicability of these materials. SAMs are particularly appealing for biological systems where well-defined surface chemistries can be created to facilitate coupling, biorecognition, or cell adhesion along with a host of other applications in biochemistry and biotechnology

    Erosion éolienne dans les régions arides et semi-arides africaines : processus physiques, métrologie et techniques de lutte

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    Cette Ă©tude prĂ©sente une approche par modĂ©lisation pour estimer les Ă©missions de particules terrigènes provenant de la rĂ©gion semi-aride sahĂ©lienne. Deux modèles spĂ©cifiques ont Ă©tĂ© combinĂ©s : l'un pour reprĂ©senter le couvert herbacĂ© saisonnier au Sahel, l'autre pour quantifier les Ă©missions de particules terrigènes. Le Sahel (12°N–20°N, 20°W–35°E) constitue la rĂ©gion d'Ă©tude et les simulations ont Ă©tĂ© effectuĂ©es Ă  une rĂ©solution spatiale de 0,25° sur une pĂ©riode de 4 ans (2004-2007). Le forçage pluviomĂ©trique provient d'un produit satellitaire TRMM (Tropical Rainfall Measuring Mission). Les autres forçages mĂ©tĂ©orologiques ont Ă©tĂ© fournis par le CEPMMT (Centre EuropĂ©en pour les PrĂ©visions MĂ©tĂ©orologiques Ă  Moyen Terme). La rugositĂ© aĂ©rodynamique de la surface a Ă©tĂ© estimĂ©e Ă  partir d'une paramĂ©trisation empirique pour reprĂ©senter sa dynamique temporelle Ă  partir des simulations du couvert vĂ©gĂ©tal saisonnier. Les simulations de vĂ©gĂ©tation ont Ă©tĂ© comparĂ©es Ă  des observations satellitaires au prĂ©alable. Lorsqu'aucune vĂ©gĂ©tation ne pousse, les propriĂ©tĂ©s de la surface ont Ă©tĂ© considĂ©rĂ©es constantes et dĂ©duites de mesures satellitaires. Les flux d'Ă©mission annuels simulĂ©s sont compris entre 100 et 400 Mt pour l'ensemble de la rĂ©gion considĂ©rĂ©e, en accord avec des travaux prĂ©cĂ©dents portant sur le Sahara. Leur variabilitĂ© interannuelle est aussi en accord avec les observations satellitaires. Nous avons par ailleurs mis en Ă©vidence l'existence d’une "frange Ă©missive saisonnièrement vĂ©gĂ©talisĂ©e" dont la superficie varie selon l'annĂ©e et pour laquelle les Ă©missions annuelles sont comprises entre 0,5 Mt et 20 Mt pour la pĂ©riode considĂ©rĂ©e. L'inhibition en masse de ces Ă©missions due Ă  la vĂ©gĂ©tation saisonnière et Ă  l'humiditĂ© superficielle du sol sur cette frange varie de 20% Ă  35%

    Construction of a Tethered Poly(ethylene glycol) Surface Gradient For Studies of Cell Adhesion Kinetics

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    Surface gradients can be used to perform a wide range of functions and represent a novel experimental platform for combinatorial discovery and analysis. In this work, a gradient in the coverage of a surface-immobilized poly(ethylene glycol) (PEG) layer is constructed to interrogate cell adhesion on a solid surface. Variation of surface coverage is achieved by controlled transport of a reactive PEG precursor from a point source through a hydrated gel. Immobilization of PEG is achieved by covalent attachment of the PEG molecule via direct coupling chemistry to a cystamine self-assembled monolayer on gold. This represents a simple method for creating spatial gradients in surface chemistry that does not require special instrumentation or microfabrication procedures. The structure and spatial distribution of the PEG gradient are evaluated via ellipsometry and atomic force microscopy. A cell adhesion assay using bovine arteriole endothelium cells is used to study the influence of PEG thickness and chain density on biocompatibility. The kinetics of cell adhesion are quantified as a function of the thickness of the PEG layer. Results depict a surface in which the variation in layer thickness along the PEG gradient strongly modifies the biological response

    Impact of vegetation and soil moisture seasonal dynamics on dust emissions over the Sahel

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    International audience[1] To address the challenging issue of estimating mineral dust emissions from the semi-arid Sahel, a modeling approach is developed by combining two specific models: one dedicated to the simulation of the seasonal herbaceous layer in the Sahel (STEP) and the other to the estimation of dust emissions (MB). The area of interest is the Sahelian belt (12 N-20 N, 20 W-35 E) and the simulations were performed at a 0.25 spatial resolution over a 4-year period (2004-2007). The rainfall forcing is provided by a TRMM (Tropical Rainfall Measuring Mission) satellite-derived product; the other meteorological data are ECMWF products. An empirical parameterization is used to estimate the surface roughness and its temporal dynamics according to the characteristics of the simulated vegetation in terms of surface cover and height. Where no vegetation grows, the surface properties are considered as constant in time and are derived from the POLDER-1 satellite measurements. Simulations are constrained step by step by comparisons with observations. Simulated annual dust fluxes emitted from the whole area range from approximately 100 Mt to 400 Mt depending on the year, in good agreement with previous works dealing with Saharan dust emissions. For the fringe where herbaceous vegetation can affect dust emissions, the annual dust emission fluxes range between 0.5 Mt and 20 Mt depending on the year. Inhibition of dust emissions due to the seasonal dynamics of vegetation and surface soil moisture over this fringe varies between 20% and 35%. Citation: Pierre, C., G. Bergametti, B. Marticorena, E. Mougin, C. Bouet, and C. Schmechtig (2012), Impact of vegetation and soil moisture seasonal dynamics on dust emissions over the Sahel

    Relationships between cortical myeloarchitecture and electrophysiological networks

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    The human brain relies upon the dynamic formation and dissolution of a hierarchy of functional networks to support ongoing cognition. However, how functional connectivities underlying such networks are supported by cortical microstructure remains poorly understood. Recent animal work has demonstrated that electrical activity promotes myelination. Inspired by this, we test a hypothesis that gray-matter myelin is related to electrophysiological connectivity. Using ultra-high field MRI and the principle of structural covariance, we derive a structural network showing how myelin density differs across cortical regions and how separate regions can exhibit similar myeloarchitecture. Building upon recent evidence that neural oscillations mediate connectivity, we use magnetoencephalography to elucidate networks that represent the major electrophysiological pathways of communication in the brain. Finally, we show that a significant relationship exists between our functional and structural networks; this relationship differs as a function of neural oscillatory frequency and becomes stronger when integrating oscillations over frequency bands. Our study sheds light on the way in which cortical microstructure supports functional networks. Further, it paves the way for future investigations of the gray-matter structure/function relationship and its breakdown in pathology

    Mapping data elements to terminological resources for integrating biomedical data sources

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    BACKGROUND: Data integration is a crucial task in the biomedical domain and integrating data sources is one approach to integrating data. Data elements (DEs) in particular play an important role in data integration. We combine schema- and instance-based approaches to mapping DEs to terminological resources in order to facilitate data sources integration. METHODS: We extracted DEs from eleven disparate biomedical sources. We compared these DEs to concepts and/or terms in biomedical controlled vocabularies and to reference DEs. We also exploited DE values to disambiguate underspecified DEs and to identify additional mappings. RESULTS: 82.5% of the 474 DEs studied are mapped to entries of a terminological resource and 74.7% of the whole set can be associated with reference DEs. Only 6.6% of the DEs had values that could be semantically typed. CONCLUSION: Our study suggests that the integration of biomedical sources can be achieved automatically with limited precision and largely facilitated by mapping DEs to terminological resources

    The z-spectrum from human blood at 7T

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    Chemical Exchange Saturation Transfer (CEST) has been used to assess healthy and pathological tissue in both animals and humans. However, the CEST signal from blood has not been fully assessed. This paper presents the CEST and nuclear Overhauser enhancement (NOE) signals detected in human blood measured via z-spectrum analysis. We assessed the effects of blood oxygenation levels, haematocrit, cell structure and pH upon the z-spectrum in ex vivo human blood for different saturation powers at 7T. The data were analysed using Lorentzian difference (LD) model fitting and AREX (to compensate for changes in T1), which have been successfully used to study CEST effects in vivo. Full Bloch-McConnell fitting was also performed to provide an initial estimate of exchange rates and transverse relaxation rates of the various pools. CEST and NOE signals were observed at 3.5 ppm, -1.7ppm and -3.5 ppm and were found to originate primarily from the red blood cells (RBCs), although the amide proton transfer (APT) CEST effect, and NOEs showed no dependence upon oxygenation levels. Upon lysing, the APT and NOE signals fell significantly. Different pH levels in blood resulted in changes in both the APT and NOE (at -3.5ppm), which suggests that this NOE signal is in part an exchange relayed process. These results will be important for assessing in vivo z-spectra

    Soil moisture active and passive microwave products: intercomparison and evaluation over a Sahelian site

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    This paper presents a comparison and an evaluation of five soil moisture products based on satellite-based passive and active microwave measurements. Products are evaluated for 2005–2006 against ground measurements obtained from the soil moisture network deployed in Mali (Sahel) in the framework of the African Monsoon Multidisciplinary Analysis project. It is shown that the accuracy of the soil moisture products is sensitive to the retrieval approach as well as to the sensor type (active or passive) and to the signal frequency (from 5.6 GHz to 18.8 GHz). The spatial patterns of surface soil moisture are compared between the different products at meso-scale (14.5° N–17.5° N and 2° W–1° W). A general good consistency between the different satellite soil moisture products is shown in terms of meso-scale spatial distribution, in particular after convective rainfall occurrences. Comparison to ground measurement shows that although soil moisture products obtained from satellite generally over-estimate soil moisture values during the dry season, most of them capture soil moisture temporal variations in good agreement with ground station measurements
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