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4. ASPECTS EPIDEMIOLOGIQUES DE L’OBESITE EN MILIEU PROFESSIONNEL A POINTE-NOIRE, CONGO-BRAZZAVILLE.

Author

Ataboho, Ebenguela Ebatetou, Pambou, Blaise, Kalina Menga, Philippe Renaud, and Moukassa, Donatien

Abstract

Copyright of Mali Médical is the property of Mali Medical, Faculte de Medecine, de Pharmacie et d'Odonto-stomatologie and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2020

7. MONDE.

Author

Hardy-Chartrand, Benoit, Lechat, Oph�lie, Philippe, Renaud, Boucher, H�l�ne, Mai, Anne-H�l�ne, and Bourdillon, R�my

Published
2019

8. Development of a microfluidics biosensor for agarose-bead immobilized Escherichia coli bioreporter cells for arsenite detection in aqueous samples.

Author

Nina Buffi, Davide Merulla, Julien Beutier, Fanny Barbaud, Siham Beggah, Harald van Lintel, Philippe Renaud, and Jan Roelof van der Meer

Subjects
MICROFLUIDIC devices, BIOSENSORS, ESCHERICHIA coli, ARSENIC compounds, DEVELOPING countries, WATER supply, PATHOGENIC bacteria
Abstract

Contamination with arsenic is a recurring problem in both industrialized and developing countries. Drinking water supplies for large populations can have concentrations much higher than the permissible levels (for most European countries and the United States, 10 μg As per L; elsewhere, 50 μg As per L). Arsenic analysis requires high-end instruments, which are largely unavailable in developing countries. Bioassays based on genetically engineered bacteria have been proposed as suitable alternatives but such tests would profit from better standardization and direct incorporation into sensing devices. The goal of this work was to develop and test microfluidic devices in which bacterial bioreporters could be embedded, exposed and reporter signals detected, as a further step towards a complete miniaturized bacterial biosensor. The signal element in the biosensor is a nonpathogenic laboratory strain of Escherichia coli, which produces a variant of the green fluorescent protein after contact to arsenite and arsenate. E. colibioreporter cells were encapsulated in agarose beads and incorporated into a microfluidic device where they were captured in 500 × 500 μm2cages and exposed to aqueous samples containing arsenic. Cell-beads frozen at −20 °C in the microfluidic chip retained inducibility for up to a month and arsenic samples with 10 or 50 μg L−1could be reproducibly discriminated from the blank. In the 0–50 μg L−1range and with an exposure time of 200 minutes, the rate of signal increase was linearly proportional to the arsenic concentration. The time needed to reliably and reproducibly detect a concentration of 50 μg L−1was 75–120 minutes, and 120–180 minutes for a concentration of 10 μg L−1. [ABSTRACT FROM AUTHOR]

Published
2011
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9. Distinguishing drug-induced minor morphological changes from major cellular damage via label-free impedimetric toxicity screening.

Author

Robert Meissner, Bilge Eker, Harsha Kasi, Arnaud Bertsch, and Philippe Renaud

Subjects
MICROFLUIDIC devices, CELL death, DRUG toxicity, MEDICAL screening, PERFUSION, IMPEDANCE spectroscopy, ACETAMINOPHEN, CELL culture
Abstract

We present a novel perfusion-based microfluidic platform for label-free drug toxicity screening which can single out non-lethal morphological changes from cellular death using electrical impedance spectroscopy. Minor cellular changes such as cell–cell contacts and major cell injury were identified viaimpedance phase angle analysis and follow-up of impedance magnitude at different frequencies. Having exposed HepG2/C3A cells to acetaminophen (AP), we showed that continuous drug perfusion caused a time and concentration-dependent impedance decrease. Moreover, perfusion of repeated doses revealed altered dielectric properties of the cell culture after recovery from AP exposure. This study highlights the possibility to sense cellular changes long before cellular death takes place, pointing out the remarkable sensitivity advantage of this technique over standard endpoint viability tests and its interest for toxicology. [ABSTRACT FROM AUTHOR]

Published
2011
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10. Tracking and synchronization of the yeast cell cycle using dielectrophoretic opacityCompeting interests: the authors declare that they have no competing financial interests.Electronic supplementary information (ESI) available. See DOI: 10.1039/c1lc00007a.

Author

Ana Valero, Thomas Braschler, Alex Rauch, Nicolas Demierre, Yves Barral, and Philippe Renaud

Subjects
CELL cycle, YEAST physiology, SYNCHRONIZATION, PROTEIN synthesis, DRUG monitoring, CELL division
Abstract

Cell cycle synchronization is an important tool for the study of the cell division stages and signalling. It provides homogeneous cell cultures that are of importance to develop and improve processes such as protein synthesis and drug screening. The main approach today is the use of metabolic agents that block the cell cycle at a particular phase and accumulate cells at this phase, disturbing the cell physiology. We provide here a non-invasive and label-free continuous cell sorting technique to analyze and synchronize yeast cell division. By balancing opposing dielectrophoretic forces at multiple frequencies, we maximize sensitivity to the characteristic shape and internal structure changes occurring during the yeast cell cycle, allowing us to synchronize the culture in late anaphase. [ABSTRACT FROM AUTHOR]

Published
2011
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11. A unified approach to dielectric single cell analysis: Impedance and dielectrophoretic force spectroscopyElectronic supplementary information (ESI) available: Impedance model for the Maxwell–Garnett mixing equation. See DOI: 10.1039/c003982aPublished as part of a themed issue dedicated to Swiss Research: Guest Editor Professor Viola Vogel.

Author

Ana Valero, Thomas Braschler, and Philippe Renaud

Subjects
IMPEDANCE spectroscopy, MICROTECHNOLOGY, MICROFLUIDIC devices, MIXING, DIELECTROPHORESIS, CYTOMETRY
Abstract

In this review we present a unified approach for single cell dielectric spectroscopy. Impedance spectroscopy and dielectrophoretic cell sorting, current microtechnologies applied in electrical analysis of single cells are discussed based on their closely related physical principles. In addition, examples of microfluidic devices will be presented: a microfabricated flow cytometer for single cell discrimination based on impedance analysis and a miniaturized continuous dielectrophoretic cell sorter, both using the concept of liquid electrodes. Using the experimental results obtained from both microdevices, we give a comparative overview over the dielectrophoretic sorting and impedance spectroscopy. [ABSTRACT FROM AUTHOR]

Published
2010
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12. Continuous-flow electrical lysis device with integrated control by dielectrophoretic cell sortingElectronic supplementary information (ESI) available: Three images and two movies showing cell sorting without and after lysis. See DOI: 10.1039/c000977f.

Author

Guillaume Mernier, Niccolò Piacentini, Thomas Braschler, Nicolas Demierre, and Philippe Renaud

Subjects
ELECTRIC equipment, CELL death, YEAST, ELECTRIC properties of cells, ELECTRIC fields, ALTERNATING currents, ELECTRODES
Abstract

We present a device capable of electrical cell lysis and evaluation of lysis efficiency in continuous flow using dielectrophoretic cell sorting. We use a combination of AC electrical fields and so-called liquid electrodes to avoid bubble creation at the electrode surface. The electrical field distribution is calculated in different electrode configurations by numerical simulations. Cell sorting shows high lysis efficiency, 99% of yeast cells sorted after lysis featuring dielectric properties similar to dead cells. A study of the potential device throughput is performed. [ABSTRACT FROM AUTHOR]

Published
2010
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13. Wide channel dielectrophoresis-based particle exchanger with electrophoretic diffusion compensation.

Author

Raphaël Tornay, Thomas Braschler, and Philippe Renaud

Subjects
DIELECTROPHORESIS, MICROFLUIDIC devices, ELECTRODES, PARTICLES, CHEMICAL reagents, DIFFUSION
Abstract

We present here a microfluidic device for the chemical modification of particles. In order to alleviate diffusive mixing issues beads are pushed from a starting buffer to a reagent over a wide channel by an array of shifted electrodes. We also show that the effect of reagent diffusion can be compensated by electrophoretic forces. [ABSTRACT FROM AUTHOR]

Published
2009
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14. Label-free determination of protein–surface interaction kinetics by ionic conductance inside a nanochannel.

Author

Nicolas F. Y. Durand and Philippe Renaud

Subjects
CONDUCTOMETRIC analysis, DYNAMICS, SERUM albumin, MEASUREMENT, SURFACE plasmon resonance, DETECTORS, ADSORPTION (Chemistry)
Abstract

We have developed a label-free conductometric platform for the rapid measurement of kinetics parameters for the adsorption and desorption of proteins on surfaces. Adsorbed Bovine Serum Albumin (BSA) has been detected electrically with response times in the minute range, and kinetic models were elaborated and compared to the measurements. The device presents similar characteristics to Surface Plasmon Resonance (SPR) immunosensors, but takes advantage of a simpler, low-cost electronic measurement unit. [ABSTRACT FROM AUTHOR]

Published
2009
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15. Dielectrophoresis-based particle exchanger for the manipulation and surface functionalization of particles.

Author

Raphaël Tornay, Thomas Braschler, Nicolas Demierre, Benedikt Steitz, Andrija Finka, Heinrich Hofmann, Jeffrey A. Hubbell, and Philippe Renaud

Subjects
PARTICLES, DIELECTROPHORESIS, HYDROSTATICS, POLYWATER
Abstract

We present a microfluidic device where micro- and nanoparticles can be continuously functionalized in flow. This device relies on an element called “particle exchanger”, which allows for particles to be taken from one medium and exposed to some reagent while minimizing mixing of the two liquids. In the exchanger, two liquids are brought in contact and particles are pushed from one to the other by the application of a dielectrophoretic force. We determined the maximum flow velocity at which all the particles are exchanged for a range of particle sizes. We also present a simple theory that accounts for the behaviour of the device when the particle size is scaled. Diffusion mixing in the exchanger is also evaluated. Finally, we demonstrate particle functionalization within the microfluidic device by coupling a fluorescent tag to avidin-modified 880 nm particles. The concept presented in this paper has been developed for synthesis of modified particles but is also applicable to on-chip bead-based chemistry or cellular biology. [ABSTRACT FROM AUTHOR]

Published
2008
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16. Continuous separation of cells by balanced dielectrophoretic forces at multiple frequencies.

Author

Thomas BraschlerThe authors have equally contributed to the article., Nicolas Demierre, Elisabete Nascimento, Tiago Silva, Abel G. Oliva, and Philippe Renaud

Subjects
CELLS, BLOOD, CELL proliferation, ELECTRODES
Abstract

We present a particle-sorting device based on the opposition of dielectrophoretic forces. The forces are generated by an array of electrode chambers located in both sidewalls of a main flow channel. Particles with different dielectric response perceive different force magnitudes and are therefore continuously focused to different streamlines in the flow channel. We relate the particles' dielectric response to their output position in the downstream channel. We demonstrate the performance of the device by separating a mixed yeast cell population into pure fractions of viable and nonviable cells. Finally, we use the device to enrich red blood cells infected with Babesia bovis, a major pathogen in cattle and simultaneously confirm the hypothesis that infection with B. bovis causes significant changes in the dielectric response of red blood cells. [ABSTRACT FROM AUTHOR]

Published
2008
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17. Characterization and optimization of liquid electrodes for lateral dielectrophoresis.

Author

Nicolas DemierreThe authors have equally contributed to the article., Thomas Braschler, Pontus Linderholm, Urban Seger, Harald van Lintel, and Philippe Renaud

Subjects
DIELECTROPHORESIS, ELECTRIC resistors, SURFACE analysis, GEOMETRIC modeling
Abstract

Using the concept of insulator-based “electrodeless” dielectrophoresis, we present a novel geometry for shaping electric fields to achieve lateral deviation of particles in liquid flows. The field is generated by lateral planar metal electrodes and is guided along access channels to the active area in the main channel. The equipotential surfaces at the apertures of the access channels behave as vertical “liquid” electrodes injecting the current into the main channel. The field between a pair of adjacent liquid electrodes generates the lateral dielectrophoretic force necessary for particle manipulation. We use this force for high-speed deviation of particles. By adding a second pair of liquid electrodes, we focus a particle stream. The position of the focused stream can be swept across the channel by adjusting the ratio of the voltages applied to the two pairs. Based on conformal mapping, we provide an analytical model for estimating the potential at the liquid electrodes and the field distribution in the main channel. We show that the simulated particle trajectories agree with observations. Finally, we show that the model can be used to optimize the device geometry in different applications. [ABSTRACT FROM AUTHOR]

Published
2007
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18. Boron: A key element in radical reactions.

Author

Philippe Renaud, Alice Beauseigneur, Andrea Brecht-Forster, Barbara Becattini, Vincent Darmency, Sarkunam Kandhasamy, Florian Montermini, Cyril Ollivier, Philippe Panchaud, Davide Pozzi, Eoin Martin Scanlan, Arnaud-Pierre Schaffner, and Valéry Weber

Subjects
BORON, FREE radical reactions, CHEMICAL reagents, ORGANIC synthesis
Abstract

*Paper based on a presentation at the 16th International Conference on Organic Synthesis (ICOS-16), 11-15 June 2006, Mérida, Yucatán, México. Other presentations are published in this issue, pp. 153-291.Boron derivatives are becoming key reagents in radical chemistry. Here, we describe reactions where an organoboron derivative is used as a radical initiator, a chain-transfer reagent, and a radical precursor. For instance, B-alkylcatecholboranes, easily prepared by hydroboration of alkenes, represent a very efficient source of primary, secondary, and tertiary alkyl radicals. Their very high sensitivity toward oxygen- and heteroatom-centered radicals makes them particularly attractive for the development of radical chain processes such as conjugate addition, allylation, alkenylation, and alkynylation. Boron derivatives have also been used to develop an attractive new procedure for the reduction of radicals with alcohols and water. The selected examples presented here demonstrate that boron-containing reagents can efficiently replace tin derivatives in a wide range of radical reactions. [ABSTRACT FROM AUTHOR]

Published
2007
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30. Unprecedented Crystalline Super-Lattices of Monodisperse Cobalt Nanorods ( The authors thank the CNRS and MOTOROLA S.P.S. for support, M. Vincent Collière, Lucien Datas, and TEMSCAN service (Université Paul Sabatier Toulouse) for TEM measurements, and Dr. Katerina Soulantica for fruitful discussions on particle organization. )

Author

Frédéric Dumestre, Bruno Chaudret, Catherine Amiens, Marc Respaud, Peter Fejes, Philippe Renaud, and Peter Zurcher

Published
2003
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31. Unprecedented Crystalline Super-Lattices of Monodisperse Cobalt Nanorods ( The authors thank the CNRS and MOTOROLA S.P.S. for support, M. Vincent Collière, Lucien Datas, and TEMSCAN service (Université Paul Sabatier Toulouse) for TEM measurements, and Dr. Katerina Soulantica for fruitful discussions on particle organization. )

Author

Frédéric Dumestre, Bruno Chaudret, Catherine Amiens, Marc Respaud, Peter Fejes, Philippe Renaud, and Peter Zurcher

Published
2003
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36. A simple pneumatic setup for driving microfluidics.

Author

Thomas Braschler, Lynda Metref, Ronit Zvitov–Marabi, Harald van Lintel, Nicolas Demierre, Joël Theytaz, and Philippe Renaud

Subjects
SYSTEMS on a chip, MICROFLUIDICS, PNEUMATICS, FLUID dynamics
Abstract

We present a simple pneumatic setup for easy and precise control of pairs of inlet flows for lab on a chip applications. [ABSTRACT FROM AUTHOR]

Published
2007
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