1-Ethyl-3-methylimidazolium ethylsulfate/copper catalyst for the enhancement of glucose chemiluminescent detection: effects on light emission and enzyme activity.

The effect of the ionic liquid 1-ethyl-3-methylimidazolium ethylsulfate ([Emim][EtSO(4)]) on the copper-catalyzed luminol chemiluminescence (CL) is reported. A drastic light emission enhancement is observed, related to a strong interaction between Cu(2+) and the imidazolium ring. In these conditions, the CL reaction was able to produce light efficiently at pH as low as 6.

[Bronchoscopic treatment of emphysema].

In late stage chronic obstructive pulmonary disease, emphysema can worsen respiratory symptoms not only via the loss of surface for gas exchange but also via alterations in mechanical properties of the respiratory system (dynamic and static hyper-inflation). Emphysematous lung volume reduction aims at improving respiratory mechanics and symptomatology in patients with advanced emphysema. Lung volume reduction surgery (LVRS) has been shown to be effective in selected patient populations but its morbidity and costs are quite elevated.

"Print-n-Shrink" technology for the rapid production of microfluidic chips and protein microarrays.

An innovative method for the production of microfluidic chips integrating protein spots is described. The technology, called "Print-n-Shrink", is based on the screen-printing of a microfluidic design (using a dielectric ink) onto Polyshrink polystyrene sheets. The initial print which has a minimum size of 15 microm (height) x 230 microm (width) is thermally treated (30 seconds, 163 degrees C) to shrink and generate features of 85 microm (height) x 100 microm (width).

Chelating Langmuir-Blodgett film: a new versatile chemiluminescent sensing layer for biosensor applications.

The present study reports the achievement of a new chemiluminescent sensing layer able to simultaneously (i) play an active role on ligand immobilization and (ii) serve as a catalyst in detection processes for label-free biosensor applications. This new type of active Langmuir-Blodgett (LB) monolayer has been designed by using a chelating lipid (Ni-NTA-DOGS). Thanks to the chelated metallic cation, this peculiar lipid exhibits luminol chemiluminescence catalysis properties in the presence of hydrogen peroxide.

Automated oligonucleotide solid-phase synthesis on nanosized silica particles using nano-on-micro assembled particle supports.

This article describes an original strategy to enable solid-phase oligodeoxyribonucleotide (ODN) synthesis on nanosized silica particles. It consists of the reversible immobilization of silica nanoparticles (NPs) on micrometric silica beads. The resulting assemblies, called nano-on-micro (NOM) systems, are well adapted to ODN synthesis in an automated instrument.

Cryptogenic hemoptysis in chronic obstructive pulmonary disease: characteristics and outcome.

Background: Hemoptysis is a common presenting symptom and cause of hospitalization in the department of respiratory diseases. In a number of patients with chronic obstructive pulmonary disease (COPD) presenting with this symptom, investigations fail to reveal a precise etiology. Little data are available regarding characteristics and outcome of COPD patients presenting with cryptogenic hemoptysis (CH).

[Pulmonary artery compression by a mediastinal tumor].

Acquired arterial pulmonary stenosis is rarely found in adults. Reviews and case reports suggest that tumours of the mediastinum (teratomatas and Hodgkin's disease) are the most frequent culprits leading to compression of the main pulmonary artery. We present the case of a young patient with chest pain.

Aryl diazonium for biomolecules immobilization onto SPRi chips.

A method for the immobilization of proteins at the surface of surface plasmon resonance imaging (SPRi) chips is presented. The technology, based on the electro-deposition of a 4-carboxymethyl aryl diazonium (CMA) monolayer is compared to a classical thioctic acid self-assembled monolayer. SPRi live recording experiments followed by the quantification of the diazonium surface coverage demonstrate the presence of a monolayer of electro-deposited molecules (11*10(12) molecules mm(-2)).

Tracheal replacement with cryopreserved allogenic aorta.

Background: Radical resection of primary tracheal tumors may be challenging when more than one-half of the tracheal length is concerned. The present study evaluated the use of cryopreserved aortic allografts (CAAs) to replace long tracheal segments.

Methods: Sixteen adult minipigs underwent tracheal replacement with a CAA.

Nebulized ceftazidime in experimental pneumonia caused by partially resistant Pseudomonas aeruginosa.

Purpose: Ventilator-associated pneumonia caused by Pseudomonas aeruginosa with impaired sensitivity to ceftazidime is frequent in critically ill patients. The aim of the study was to compare lung tissue deposition and antibacterial efficiency between nebulized and intravenous administrations of ceftazidime in ventilated piglets with pneumonia caused by Pseudomonas aeruginosa with impaired sensitivity to ceftazidime.

Methods: Ceftazidime was administered 24 h following the intra-bronchial inoculation of Pseudomonas aeruginosa (minimum inhibitory concentration = 16 microg ml(-1)), either by nebulization (25 mg kg(-1) every 3 h, n = 6) or by continuous intravenous infusion (90 mg kg(-1) over 24 h after an initial rapid infusion of 30 mg kg(-1), n = 6).

Protein-diazonium adduct direct electrografting onto SPRi-biochip.

A direct protein immobilization method for surface plasmon resonance imaging (SPRi) gold chip arraying is exposed. The biomolecule electroaddressing strategy, previously demonstrated by our team on carbon surfaces, is here valuably involved and adapted to create a straightforward and efficient protein immobilization process onto SPRi-biochips. The proteins, modified with an aryl-diazonium adduct, are addressed to the SPRi chip surface through the electroreduction of the aryl-diazonium.

Nosocomial tracheobronchitis.

Purpose Of Review: Nosocomial tracheobronchitis is common among intubated critically ill patients. Ventilator-associated tracheobronchitis (VAT) represents an intermediate process between lower respiratory tract colonization and ventilator-associated pneumonia. The aim of this review is to discuss recent findings on VAT.

Variations in endotracheal cuff pressure in intubated critically ill patients: prevalence and risk factors.

Background And Objective: An endotracheal cuff pressure of 20-30 cmH(2)O is recommended. Underinflation and overinflation are associated with complications such as aspiration and tracheal wall damage. The aim of this study was to identify prevalence of, and risk factors for, endotracheal cuff underinflation and overinflation.

Functionalization of luminescent aminated particles for facile bioconjugation.

For labeling proteins (streptavidin and fibronectin) by luminescent aminated nanoparticles, an interesting strategy that requires neither activation nor chemical pre- or post-treatment was explored. Because biomolecules are easily rendered luminescent after reaction with organic dyes carrying isothiocyanate moiety, phenylene diisothiocyanate (DITC) was used for covalently binding proteins onto luminescent hybrid gadolinium oxide nanoparticles whose ability to combine imaging and therapy was recently demonstrated.

Straightforward protein immobilization using redox-initiated poly(methyl methacrylate) polymerization.

Rigid poly(methyl methacrylate) (PMMA) biochips directly modified with active protein spots were obtained, using a redox-initiated PMMA polymerization process. The protein immobilization mechanism is believed to be a combination of both a covalent binding through transient amino acid radical generation and a direct entrapment of the biomolecules in the PMMA polymer. Three different immunoassays (binding, capture, and sandwich) were performed using the developed system, and really promising limits of detection (160-200pg/mL) were obtained, demonstrating a novel straightforward route to fabricate plastic biochips.

Bacteriophage-modified microarrays for the direct impedimetric detection of bacteria.

A novel method is presented for the specific and direct detection of bacteria using bacteriophages as recognition receptors immobilized covalently onto functionalized screen-printed carbon electrode (SPE) microarrays. The SPE networks were functionalized through electrochemical oxidation in acidic media of 1-ethyl-3-(3-dimethylaminopropyl)carbodiimide (EDC) by applying a potential of +2.2 V to the working electrode.

Disposable screen-printed chemiluminescent biochips for the simultaneous determination of four point-of-care relevant proteins.

A screen-printed (SP) microarray is presented as a platform for the achievement of multiparametric biochips. The SP platform is composed of eight (0.28-mm(2)) working electrodes modified with electroaddressed protein A-aryl diazonium adducts.

Impedance based DNA chip for direct T(m) measurement.

Si/SiO(2) chips were used to detect the hybridization of immobilized Oligo d(T)(20) through impedance measurement. The immobilization procedure involved an aminopropyl silane grafted silicon oxide surface activated by glutaraldehyde and subsequently modified by an aminolinker supporting oligonucleotides. The immobilization procedure was optimized and, in the best conditions, the hybridization of the immobilized oligonucleotide was able to generate a 50 Omega impedance change at an applied dc potential of -300 mV.

Regenerable immunobiosensor for the chemiluminescent flow injection analysis of the herbicide 2,4-D.

A semi-automated chemiluminescent competitive immunosensor for the herbicide 2,4-dichlorophenoxyacetic acid (2,4-D) is presented. Anti-2,4-D polyclonal antibodies are directly labelled with horseradish peroxidase allowing a p-iodophenol enhanced chemiluminescent detection. Using antigen immobilised on UltraBind type pre-activated membranes, the 2,4-D immunosensor exhibits low non-specific/specific binding ratio (maximum ratio: 5%) of the labelled antibodies.

"Macromolecules to PDMS transfer" as a general route for PDMS biochips.

"Macromolecules to PDMS transfer" technique relying on the direct entrapment of macromolecules spots during PDMS polymerisation is proposed as an alternative for the easy and simple PDMS surface modification. In the present work, the development of three different applications based on this procedure is presented as proof of the method potentialities. First, C-reactive protein (CRP) sandwich immunoassay using immobilised monoclonal anti-CRP antibodies was developed for sepsis diagnosis.

Automated lobar quantification of emphysema in patients with severe COPD.

Automated lobar quantification of emphysema has not yet been evaluated. Unenhanced 64-slice MDCT was performed in 47 patients evaluated before bronchoscopic lung-volume reduction. CT images reconstructed with a standard (B20) and high-frequency (B50) kernel were analyzed using a dedicated prototype software (MevisPULMO) allowing lobar quantification of emphysema extent.

Influence of pH upon surface-enhanced enzyme-catalyzed luminol chemiluminescence at vicinity of nanoscale-corrugated gold and silver films.

Au and Ag biochips were fabricated to investigate the influence of pH upon the chemiluminescence (CL) of luminol at vicinity of surface-adsorbed peroxidase. A nanoscaled-corrugation of the metal induces an enhancement of the luminol CL which is maximal in the pH range favoring peroxidase catalysis and greater for gold than for silver. This is the proof that, in the CL process, the reactions involving peroxidase are surface-enhanced near corrugated surfaces.

Microfluidic biochip for chemiluminescent detection of allergen-specific antibodies.

Protein microarrays for allergen-specific antibodies detection were integrated in microfluidic chips, with imaging chemiluminescence as the analytical technique. This paper demonstrates the feasibility of miniaturized chemiluminescent ELISA by presenting rapid, reproducible and sensitive detection of protein antibodies using microfluidics. Three different proteins, beta-lactoglobulin, peanut lectin and human IgG were immobilized via a "macromolecules to polydimethylsiloxane elastomer (PDMS) transfer" protocol and used as capturing agent for the detection of specific antibodies.