The effect of bronchoscopic lung volume reduction on the bronchodilator response.

Background: Bronchoscopic lung volume reduction (BLVR) is a method of achieving lung collapse in severely emphysematous regions. One of the measures of success is the improvement in post-bronchodilator forced expiratory volume in the first second (FEV). The change in bronchodilator response (BDR) following BLVR is typically not reported, however, the changes in lung physiology that accompany endobronchial valve placement may impact aerosol drug delivery and alter the response to bronchodilators.

Fabrication of a totally renewable off-channel amperometric platform for microchip electrophoresis.

In this approach, a novel method to fabricate an integrated amperometric platform used in off-channel electrophoresis has been introduced. A simple screen printed protocol combining a wet etching procedure was used to define the pattern on a glass substrate, and whole electrodes were constructed by filling the conductive carbon ink into the etched cavities. A simple Teflon tape was used to align this platform with the micro-channel, and the variation of reassembling of this device can be down to 2.

Low-potential amperometric determination of purine derivatives through surface oxide regeneration method.

This article described a novel amperometry which can be used for determination of purine derivatives including uric acid, xanthine, hypoxanthine, guanine, and adenine without surface contamination. By applying a constant potential of -0.125 V (vs.

Amperometric determination of NADH with Co₃O₄ nanosheet modified electrode.

In this work, we have developed a simple and reliable cobalt oxide (Co₃O₄) based amperometric sensor for the determination of NADH. A sheet shape Co₃O₄ nanooxide was synthesized by the CTAB assisted hydrothermal technique and was characterized by SEM and XPS. Owing to the redox property of Co₃O₄, the operating potential of NADH can be significantly reduced from 0.

A novel structural specific creatinine sensing scheme for the determination of the urine creatinine.

In this work, a highly structural dependent amperometric scheme was proposed for the determination of creatinine without enzymatic assistance. The principle of this novel method is based upon the formation of a soluble copper-creatinine complex on the copper electrode surface. Subsequently, an oxidative current from the regeneration of the surface oxide layer is monitored and it is proportional to the concentration of the creatinine.

Development of disposable lipid biosensor for the determination of total cholesterol.

A prototype chronoamperometric biosensor for the determination of total cholesterol was developed that consists of a homemade potentiostat and disposable strips immobilized with Fe(3)O(4), cholesterol oxidase (ChOx), and cholesterol esterase (ChE). The principle of sensing cholesterol is based on the detection of reduction signal of hydrogen peroxide generated in two enzymatic reactions. The co-immobilization of ChE and ChOx allows the sensor to detect both concentrations of esterified and free cholesterol.