211 research outputs found
Reversible film formation from nano-sized PNIPAM particles below glass transition
Reversible film formation process from nano-sized Poly(N-isopropylacrylamide) (PNIPAM) microgel particles were studied during heating-cooling cycles at various rates. Photon transmission technique was used and transmitted photon intensity I (tr) was monitored during heating-cooling cycles. The increase and decrease in I (tr) during heating and cooling was explained with the void closure and void reconstruction processes, and the corresponding activation energies were measured. It was observed that PNIPAM microgels required less energy during reconstruction of voids than their closure.Publisher's Versio
A Sensitive Micro Conductometric Ethanol Sensor Based on an Alcohol Dehydrogenase-Gold Nanoparticle Chitosan Composite
In this paper, a microconductometric sensor has been designed, based on a chitosan composite including alcohol dehydrogenase—and its cofactor—and gold nanoparticles, and was calibrated by differential measurements in the headspace of aqueous solutions of ethanol. The role of gold nanoparticles (GNPs) was crucial in improving the analytical performance of the ethanol sensor in terms of response time, sensitivity, selectivity, and reproducibility. The response time was reduced to 10 s, compared to 21 s without GNPs. The sensitivity was 416 µS/cm (v/v%)−1 which is 11.3 times higher than without GNPs. The selectivity factor versus methanol was 8.3, three times higher than without GNPs. The relative standard deviation (RSD) obtained with the same sensor was 2%, whereas it was found to be 12% without GNPs. When the air from the operator’s mouth was analyzed just after rinsing with an antiseptic mouthwash, the ethanol content was very high (3.5 v/v%). The background level was reached only after rinsing with water
Development of an ImmunoFET for Analysis of Tumour Necrosis Factor- (alfa) in Artificial Saliva: Application for Heart Failure Monitoring
Assessing tumour necrosis factor-(alfa) (TNF-(alfa)) levels in the human body has become an essential tool to recognize heart failure (HF). In this work, label-free, rapid, easy to use ImmunoFET based on an ion-sensitive field effect transistor (ISFET) was developed for the detection of TNF-(alfa) protein. Monoclonal anti-TNF-(alfa) antibodies (anti-TNF-(alfa) mAb) were immobilized on an ISFET gate made of silicon nitride (Si3N4) after salinization with 11-(triethoxysilyl) undecanal (TESUD). The obtained ISFET functionalized with the mAbs (ImmunoFET) was used to detect TNF-(alfa) protein in both phosphate buffer saline (PBS) and artificial saliva (AS). The change in the threshold voltage of the gate (DVT) showed approximately linear dependency on the concentration of the antigens in the range 5-20 pg/mL for both matrixes. The cross-selectivity study showed that the developed ImmunoFET demonstrated to be selective towards TNF-(alfa), when compared to other HF biomarkers such as N-terminal pro-brain natriuretic peptide (NT-proBNP), interleukin-10 (IL-10), and cortisol, even if further experiments have to be carried out for decreasing possible unspecific absorption phenomena. To the best of our knowledge, this is the first ImmunoFET that has been developed based on Si3N4 for TNF-(alfa) detection in AS by electrical measurement
La nanotecnología en las ciencias biológicas
La nanotecnología ha acompañado al hombre en varias etapas de su evolución, permitiendo el desarrollo de productos innovadores que han mejorado su calidad de vida. Actualmente, ésta es una de las áreas de mayor crecimiento a nivel mundial en lo que a investigación y aplicación tecnológica se refiere. En este contexto, áreas de las Ciencias Biológicas en constante desarrollo, como la agricultura, los alimentos, el medio ambiente y la medicina, han incorporado avances nanotecnológicos de alto impacto en los últimos años. Dentro de los productos desarrollados con mayor aplicación se incluyen nanomateriales, nanosistemas de liberación, nanopelículas, nanorobots, nanodispositivos electrónicos, nanotubos de carbono y nanopartículas metálicas, entre otros. El presente trabajo aborda los principales productos desarrollados a partir de la nanotecnología y su aplicación en las Ciencias Biológicas, destacando la importancia y el avance que otorgan a la vida del hombre
Topical co-delivery of indomethacin and nigella sativa L. essential oil in poly-cappa-caprolactone nanoparticles: in vitro study of anti-inflammatory activity
Indomethacin is a potent, nonselective Non-steroidal Antiinflammatory
Drug (NSAID) but its low water-solubility precludes its
use as topical dosage form. As with other NSAIDs, the systemic
delivery is associated with high risk of serious gastrointestinal adverse
events including bleeding, ulceration and perforation of stomach and
intestines. Here we demonstrate a safer way of administration i.e via
topical demonstrating synergistic effects when co-delivered with
Nigella sativa L. seeds essential oil (NSSEO) in the form of coencapsulated
particles (~200 nm) of poly--caprolactone. The particles
showed penetrability across stratum corneum to dermis layer in ex-vivo
human skin. Further study in the xyline-induced ear edema in mice was
performed, and co-encapsulated particles demonstrated highest antiinflammatory
effect compared to indomethacin particles and
indomethacin gels. Despite slower onset compared to indomethacin
gels, the inflamed ear continued to show reduction in thickness over 8
hours of observation demonstrating synergistic and pro-longed effect
contributed by NSSEO. In immunohistochemistry study of CD45+, the
mice ears treated with co-encapsulated particles showed considerable
reduction in lesions, epidermal-dermal separation and inflammatory
cells (lymphocytes and neutrophils) infiltration as compared to other
formulation. Based on microscopic evaluation, the anti-inflammatory
inhibition effect of co-encapsulated particles is the highest (90%)
followed by indomethacin particles (79%) and indomethacin gel (49%).
The findings suggest not only skin permeability of indomethacin
significantly improved but also the therapeutic effects, all provided by
the presence of NSSEO in the particles. This study paves the way to more co-encapsulation of any other contemporary medicines in
combination with this wholesome natural oil, NSSEO
Coloidal Nanoparticles in Biotechnology
www.wiley.com/chemistryLearn to use colloidal nanoparticles in a broad range of biotechnology applications Discover new and emerging applications of colloidal nanoparticles. Dr. Abdelhamid Elaissari, internationally respected author and researcher, reports on and analyzes a broad range of important findings from new studies on the use of colloidal nanoparticles in biomedical, food, and environmental diagnostics and analyses. Throughout the presentation, the book uses a blend of classical tools, including optical microscopy, atomic force microscopy, microsystems, and microfluidics, to help you take full advantage of colloidal nanoparticles for your own research and applications. Among the key topics covered are: • The evolution in malaria disease detection, from parasite visualization to colloidal-based rapid diagnostics • Biospecific reactions by affinity latexes, from diagnostics to multiplex assay • Fluorescent colloidal particles as detection tools in biotechnology systems • Gas sensors based on ultrathin films of conducting polymers and nanocomposites • Force measurements between emulsion droplets as a new tool for medical diagnostics • Electrical detection of antibodies from human serum based on the insertion of gold- labeled secondary antibodies into microgaps and nanogaps Special attention is given to the use of particles and reactive particles for in vitro biomedical diagnostics. In addition, the book explores many unusual nanoparticles with interesting and helpful applications. Biotechnological systems are presented and illustrated using examples of actual applications, helping you progress from theory to application. The first book to present and analyze the great potential of colloidal nanoparticles across a broad range of biotechnology applications, this guide will give you the information you need to develop your own important applications and help you to harness these particles' full potential. ABDELHAMID ELAISSARI, PHD, DEA, is Director of Research at the National Center for Scientific Research (CNRS) in Lyon, France. A partial list of his current research interests includes functionalization of complex colloidal systems, physical chemistry and colloidal characterization of colloidal particles, adsorption, desorption, covalent grafting, and specific immobilization of biomolecules and polyelectrolytes onto colloidal particles
Magnetic Latex Particles in Nanobiotechnologies for Biomedical Diagnostic Applications: State of the Art
International audienc
Magnetic Latex Particles in Nanobiotechnologies for Biomedical Diagnostic Applications: State of the Art
International audienc
Elaboration de latex magnétiques à partir d'émulsions directes de ferrofluide (forces de surface entre conjugués particules/oligodésoxyribonucléotides)
Ce travail a consisté à élaborer des supports magnétiques particulaires fonctionnalisés à partir d'émulsions directes de ferrofluide pour des applications dans le domaine du diagnostic médical. Cela a d'abord nécessité la préparation d'émulsions magnétiques de type huile-dans-eau obtenues par émulsification d'un ferrofluide organique. Ce ferrofluide a été synthétisé par voie chimique, puis caractérisé à l'aide de nombreuses techniques afin de déterminer sa composition, la nature et la taille des nanoparticules d'oxyde de fer ainsi que ses propriétés magnétiques. Les émulsions magnétiques obtenues ont également été caractérisées afin de mettre en évidence la composition et la morphologie des gouttelettes ainsi que les propriétés colloïdales. Les particules de latex magnétiques ont ensuite été préparées par polymérisation à l'intérieur des gouttelettes d'émulsion gonflées par le styrène. Deux principaux systèmes de polymérisation ont été étudiés, le premier faisant intervenir un amorceur organosoluble (AIBN), le second un amorceur hydrosoluble (KPS). L'utilisation d'un polymère amphiphile, dont l'adsorption à la surface des gouttes d'émulsion a été préalablement étudiée, a permis d'obtenir des particules de latex fonctionnalisées. Différents mécanismes de polymérisation ont également été proposés en fonction de la nature de l'amorceur utilisé. La morphologie des particules de latex magnétiques a été discutée en détail sur la base d'une approche thermodynamique et cinétique du phénomène. Finalement, des conjugués particules/ODN ont été préparés puis étudiés à l'aide de la technique de mesure de forces colloïdales, qui a montré l'évolution de la nature des forces répulsives s'exerçant entre les particules en fonction du pH et de la force ionique du milieu. L'épaisseur de la couche d'ODN immobilisée en surface a également été déterminée par cette méthode.LYON1-BU.Sciences (692662101) / SudocSudocFranceF
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