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Detection Methodology (detection + methodology)

Distribution by Scientific Domains
Life Sciences37%
Chemistry37%

Selected Abstracts

Cover Picture: Electrophoresis 2'2010

ELECTROPHORESIS, Issue 2 2010
Article first published online: 18 JAN 2010
Issue no. 2 has 19 contributions including one Fast Track contribution on "Thermophoresis of ssDNA". The remaining 18 articles cover a wide variety of investigation involving nucleic acids, cells, viruses, interactive CE, detection methodologies in CE, enantioseparations, and studies on proteins and proteomics. Further selected articles include: Capillary electrophoresis of bone marrow stromal cells with uptake of heparin-functionalized poly(lactide-co-glycolide) nanoparticles during differentiation towards neurons. ((10.1002/elps.200900336)) Ghrelin-liposome interactions. Characterization of liposomal formulations of an acylated 28-amino acid peptide using capillary electrophoresis. ((10.1002/elps.200900394)) [source]

Risk and control of waterborne cryptosporidiosis

FEMS MICROBIOLOGY REVIEWS, Issue 2 2002
Joan B. Rose
Abstract Cryptosporidium remains at the forefront of studies on waterborne disease transmission and abatement. The impact of environmental land use patterns which contribute animal and human waste, climatic precipitation leading to a strong association with outbreaks, and community infrastructure and water treatment are now recognized as contributing factors in the potential for waterborne spread of the protozoan. Advances in detection methodologies, including the ability to genotype various strains of this organism, have shown that human wastes are often the source of the contamination and cell culture techniques have allowed insight into the viability of the oocyst populations. Currently water treatment has focused on UV and ozone disinfection as most promising for the inactivation of this protozoan pathogen. [source]

Occurrence and molecular genotyping of Cryptosporidium spp. in surface waters in Northern Ireland

JOURNAL OF APPLIED MICROBIOLOGY, Issue 5 2001
C.J. Lowery
Aims: To investigate the incidence and genotype of Cryptosporidium parvum oocysts in drinking water sources in Northern Ireland for the period 1996,1999, and to compare conventional and molecular methods of detection. Methods and Results: Four hundred and seventy-four waters were investigated by conventional methods, namely immuno-fluorescent antibody detection (IFA; 380) and immuno-magnetic separation-IFA (IMS-IFA; 94), of which 14/474 (3%) were positive. Two hundred and fourteen samples (214/474) were also investigated by PCR techniques, targeting both the 18S rRNA and TRAP-C2 genes, of which 11/214 (5·1%) were positive. These 11 samples were classified as genotype II following sequence analysis of the TRAP-C2 amplicon. Conclusions: This study demonstrated the low incidence of oocysts of C. parvum in water sources in Northern Ireland. Significance and Impact of the Study: Such molecular-based techniques offer a number of advantages over conventional detection methodologies, namely greater sensitivity and specificity as well as the ability to provide accurate genotyping data rapidly, which may be valuable in directing operational management in potential outbreak situations. [source]

Decentralized Parametric Damage Detection Based on Neural Networks

COMPUTER-AIDED CIVIL AND INFRASTRUCTURE ENGINEERING, Issue 3 2002
Zhishen Wu
In this paper, based on the concept of decentralized information structures and artificial neural networks, a decentralized parametric identification method for damage detection of structures with multi-degrees-of-freedom (MDOF) is conducted. First, a decentralized approach is presented for damage detection of substructures of an MDOF structure system by using neural networks. The displacement and velocity measurements from a substructure of a healthy structure system and the restoring force corresponding to this substructure are used to train the decentralized detection neural networks for the purpose of identifying the corresponding substructure. By using the trained decentralized detection neural networks, the difference of the interstory restoring force between the damaged substructures and the undamaged substructures can be calculated. An evaluation index, that is, relative root mean square (RRMS) error, is presented to evaluate the condition of each substructure for the purpose of health monitoring. Although neural networks have been widely used for nonparametric identification, in this paper, the decentralized parametric evaluation neural networks for substructures are trained for parametric identification. Based on the trained decentralized parametric evaluation neural networks and the RRMS error of substructures, the structural parameter of stiffness of each subsystem can be forecast with high accuracy. The effectiveness of the decentralized parametric identification is evaluated through numerical simulations. It is shown that the decentralized parametric evaluation method has the potential of being a practical tool for a damage detection methodology applied to structure-unknown smart civil structures. [source]

Selective Potentiometric Measurement of Physiologically Significant Thiols

ELECTROANALYSIS, Issue 3 2005
Svetlana Gracheva
Abstract The reaction of benzoquinone with reduced thiol species has been investigated using potentiometric techniques. The specificity of this reaction for thiol functionality has been briefly assessed and the nature of the electrode response has been elucidated. The system has been characterized in terms of selectivity, sensitivity and the efficacy of using the system for the quantification of thiol containing pharmaceuticals has been demonstrated. The simplicity of the detection methodology is shown to markedly contrast alternative thiol detection strategies. The transfer of the technology to a mass production format through the adoption of screen print electrode formats has been achieved and the efficacy of the approach demonstrated. Recovery experiments using captopril and penicillamine in tissue culture as a model analyte system were performed. [source]

Electrochemically Initiated Catalytic Oxidation of 5-Thio-2-Nitrobenzoic Acid (TNBA) in the Presence of Thiols at a Boron Doped Diamond Electrode: Implications for Total Thiol Detection

ELECTROANALYSIS, Issue 21 2003
Olga Nekrassova
Abstract The electrochemical response of 5,5-dithiobis(2-nitrobenzoic acid) (DTNB) to increasing additions of thiol species has been examined at a boron doped diamond electrode. A reaction has been shown to occur with a range of biologically relevant thiols and proceeds via a CECC' process. A total thiol detection methodology has been developed showing that the sensitivities of the standard addition plots are independent of the individual thiol species added to the solution. The analytical utility of the reaction process has been assessed using chronoamperometry with the corresponding data producing detection limits of 5.7,,M, 4.4,,M and 5.8,,M for the detection of cysteine, homocysteine and glutathione respectively. [source]

Characteristics associated with discharge to home following prolonged mechanical ventilation: A signal detection analysis,

RESEARCH IN NURSING & HEALTH, Issue 6 2006
Yookyung Kim
Abstract The objective of study was to identify characteristics associated with being home at 6 months in 80 patients on prolonged mechanical ventilation (PMV) (,7 days). At 6 months, 47.5% were home, 13.8% institutionalized, and 38.8% deceased and classified "not home." Using signal detection methodology (SDM), four mutually exclusive groups at high and low probability of being home were identified. The best outcome (94.4% home) was achieved by patients with an admission Charlson Comorbidity Score ,3 and an Acute Physiology Score (APS) ,21 and the worst outcome (23.4% home) by patients with an admission Charlson Comorbidity Score >3 and Health Assessment Questionnaire score >2.7. SDM provided an effective means of identifying subgroups likely to be discharged home using available information. © 2006 Wiley Periodicals, Inc. Res Nurs Health 29: 510,520, 2006 [source]

Chemiluminescence detection in HPLC and CE for pharmaceutical and biomedical analysis

BIOMEDICAL CHROMATOGRAPHY, Issue 2-3 2003
Famei Li
Abstract The present paper reviews the developments and applications of chemiluminescence detection with HPLC and CE in pharmaceutical and biomedical analysis. The chemiluminescence systems, chemiluminogenic reagents and derivatization reagents, improvements in instrumental design as well as their contributions to the practical applications, are all presented. The advantages and limitations of current detection methodology and future prospects for improvement are briefly discussed. Copyright © 2003 John Wiley & Sons, Ltd. [source]