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42 results on '"Immunoassay -- Analysis"'

1. Investigators at Guangxi University of Chinese Medicine Detail Findings in Laboratory Research (Comparison of Three Immunoassays Systems for Determining Serum Estradiol)

Subjects
Immunoassay -- Analysis, Estrogens -- Research, Phenols (Class of compounds) -- Research, Architects, Obesity, Estradiol, Physical fitness, Editors, Asian medicine, Sex hormones, Health
Abstract

2019 MAY 18 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- Current study results on Laboratory Research have been published. According to news [...]

Published
2019

2. Surface-enhanced Raman scattering immunoassays using a rotated capture substrate

Author

Driskell, Jeremy D., Uhlenkamp, Jill M., Lipert, Robert J., and Porter, Marc D.

Subjects
Raman effect -- Observations, Immunoassay -- Analysis, Substrates (Biochemistry) -- Chemical properties, Chemistry
Abstract

A rapid, sensitive format for immunosorbent assays has been developed to meet the increasing levels of performance (i.e., reduction of incubation times and detection limits) demanded in the medical, veterinary, and bioterrorism prevention arenas. This paper introduces the concept of a rotating capture substrate as a facile means to increase the flux of antigen and label to the solid-phase surface and thereby reduce assay time. To this end, a sandwich-type assay is carded out that couples the specificity of antibody--antigen interactions with the high sensitivity of surface-enhanced Raman scattering detection. To investigate this strategy, polyclonal anti-rabbit IgG was immobilized on a gold capture substrate via a thiolate coupling agent. The capture substrate, capable of controlled rotation, was then immersed in a sample solution containing rabbit IgG, which served as a model analyte. After binding the target IgG, the substrates were immersed and rotated in an extrinsic Raman label (ERL) labeling solution, which is composed of gold nanoparticles (60 nm) coated with an aromatic moiety as the Raman scatterer and an antibody as the biospecific recognition element. The effect of substrate rotation on both the antigen binding and ERL labeling steps was investigated. Implementation of optimized rotation conditions resulted in the reduction of assay times from 24 h to 25 min and a 10-fold improvement in the limit of detection. Finally, the developed protocol was applied to the detection of rabbit IgG suspended in goat serum, which served to assess performance in a biological matrix.

Published
2007

3. Concentration gradient immunoassay. 1. An immunoassay based on interdiffusion and surface binding in a microchannel

Author

Nelson, Kjell E., Foley, Jennifer O., and Yager, Paul

Subjects
Surface chemistry -- Research, Immunoassay -- Analysis, Plasmons (Physics) -- Analysis, Resonance -- Analysis, Chemistry
Abstract

We describe a novel microfluidic immunoassay method based on the diffusion of a small-molecule analyte into a parallel-flowing stream containing a cognate antibody. This interdiffusion results in a steady-state gradient of antibody binding site occupancy transverse to convective flow. In contrast to the diffusion immunoassay (Hatch, A.; Kamholz, A. E.; Hawkins, K. R.; Munson, M. S.; Schilling, E. A.; Weigl, B. H.; Yager, P. Nat. Bioteehnol. 2001, 19, 461-465.), this antibody occupancy gradient is interrogated by a sensor surface coated with a functional analogue of the analyte. Antibodies with at least one unoccupied binding site may specifically bind to this functionalized surface, leading to a quantifiable change in surface coverage by the antibody. SPR imaging is used to probe the spatial distribution of antibody binding to the surface and, therefore, the outcome of the assay. We show that the pattern of antibody binding to the SPR sensing surface correlates with the concentration of a model analyte (phenytoin) in the sample stream. Using an inexpensive disposable microfluidic device, we demonstrate assays for phenytoin ranging in concentration from 75 to 1000 nM in phosphate buffer. At a total volumetric flow rate of 90 nL/s, the assays are complete within 10 min. Inclusion of an additional flow stream on the side of the antibody stream opposite to that of the sample enables simultaneous calibration of the assay. This assay method is suitable for rapid quantitative detection of low molecular weight analytes for point-of-care diagnostic instrumentation.

Published
2007

4. Concentration gradient immunoassay. 2. Computational modeling for analysis and optimization

Author

Foley, Jennifer O., Nelson, Kjell E., Mashadi-Hossein, Afshin, Finlayson, Bruce A., and Yager, Paul

Subjects
Surface chemistry -- Research, Immunoassay -- Analysis, Plasmons (Physics) -- Analysis, Resonance -- Analysis, Computer-generated environments -- Usage, Computer simulation -- Usage, Chemistry
Abstract

A novel microfluidic surface-based competition immunoassay, termed the concentration gradient immunoassay (described in detail in a companion paper (Nelson, K.; Foley, J.; Yager, P. Anal Chem. 2007, 79, 3542-3548.) uses surface plasmon resonance (SPR) imaging to rapidly measure the concentration of small molecules. To conduct this assay, antibody and analyte are introduced into the two inlets of a T-sensor (Weigi, B. H.; Yager, P. Science 1999, 283, 346-347. Kamholz, A. E.; Weigl, B. H.; Finlayson, B. A.; Yager, P. Anal. Chem. 1999, 71, 5340-5347). Several millimeters downstream, antibody molecules with open binding sites can bind to a surface functionalized with immobilized antigen. This space- and time-dependent binding can be sensitively observed using SPR imaging. In this paper, we describe a complex three-dimensional finite element model developed to better understand the dynamic processes occurring with this assay. The model shows strong qualitative agreement with experimental results for small-molecule detection. The model confirms the experimental finding that the position within the microchannel at which the antibody binds to the immobilized analyte may be used to quantify the concentration of analyte in the sample. In addition, the model was used to explore the sensitivity of assay performance to parameters such as antibody and analyte concentrations, thereby giving insight into ways to optimize analysis speed and accuracy. Given the experimental verification of the computational results, this model serves as an efficient method to explore the influence of the flow rate, microchannel dimensions, and antibody concentration on the sensitivity of the assay.

Published
2007

5. A new competitive fluorescence assay for the detection of patulin toxin

Author

de Champdore, Marcella, Bazzicalupo, Paolo, De Napoli, Lorenzo, Montesarchio, Daniela, Di Fabio, Giovanni, Cocozza, Immacolata, Parracino, Antonietta, Rossi, Mose', and D'Auria, Sabato

Subjects
Immunochemistry -- Research, Aspergillus -- Research, Immunoassay -- Analysis, Chemistry
Abstract

Patulin is a toxic secondary metabolite of a number of fungal species belonging to the genera Penicillum and Aspergillus. It has been mainly isolated from apples and apple products contaminated with the common storage-rot fungus of apples, Penicillum expansum, but it has also been extracted from rotten fruits, moldy feeds, and stored cheese. Human exposure to patulin can lead to serious health problems, and according to a long-term investigation in rats, the World Health Organization has set a tolerable weekly intake of 7 ppb body weight. The content of patulin in foods has been restricted to 50 ppb in many countries. Conventional analytical detection methods involve chromatographic analyses, such as HPLC, GC, and, more recently, techniques such as LC/MS and GC/MS. However, extensive protocols of sample cleanup are required prior to the analysis, and to accomplish it, expensive analytical instrumentation is necessary. An immunochemical analytical method, based on highly specific antigen-antibody interactions, would be desirable, offering several advantages compared to conventional techniques, i.e., low cost per sample, high selectivity, high sensitivity, and high throughput. In this paper, the synthesis of two new derivatives of patulin is described, along with their conjugation to the bovine serum albumin for the production of polyclonal antibodies. Finally, a fluorescence competitive immunoassay was developed for the on-line detection of patulin.

Published
2007

6. Bead-assisted displacement immunoassay for staphylococcal enterotoxin B on a microchip

Author

Haes, Amanda J., Terray, Alex, and Collins, Greg E.

Subjects
Staphylococcus -- Analysis, Immunoassay -- Analysis, Integrated circuits, Semiconductor chips, Standard IC, Chemistry
Abstract

A microchip-based, displacement immunoassay for the sensitive laser-induced fluorescence detection of staphylococcal enterotoxin B is presented. The glass microchip device consists of a microchannel that contains a double weir structure for supporting antibody-functionalized microbeads. After a 30-min sample preparation step, the displacement assay was performed without user intervention and produced quantitative results in an additional 20 min. Linear detection responses were observed over 6 orders of magnitude and provided detection limits down to 1 fM (28.5 fg/mL). The surprisingly low detection limits are hypothesized to arise from field-based enrichment analogous to field-amplified stacking, chromatographic effects, and limited diffusion lengths in the microbead bed. The assay was challenged with bovine serum albumin, casein, and milk sample matrixes. This system has the potential to provide highly sensitive detection capabilities for target biomolecules.

Published
2006

8. On-chip enzyme immunoassay of a cardiac marker using a microfluidic device combined with a portable surface plasmon resonance system

Author

Kurita, Ryoji, Yokota, Yoshimi, Sato, Yukari, Mizutani, Fumio, and Niwa, Osamu

Subjects
Enzymes -- Research, Immunoassay -- Analysis, Natriuretic peptides -- Research, Chemistry
Abstract

This paper reports a miniaturized immunosensor designed to determine a trace level cardiac marker, B-type natriuretic peptide (BNP), using a microfluidic device combined with a portable surface plasmon resonance (SPR) sensor system. Sample BNP solution was introduced into the microchannel after an immunoreaction with acetylcholine esterase-labeled antibody (conjugate), and only unbound conjugate was trapped on the BNP-immobilized surface in the flow channel. Then, the thiol compound generated by the enzymatic reaction with the trapped conjugate was accumulated on a gold thin film located downstream in the microchannel to monitor the real-time SPR angle shift. We achieved a detectable concentration range of 5 pg/mL-100 ng/mL by monitoring the SPR angle shift, which covers the required detection range for the BNP concentrations found in blood. This success resulted from the use of a T-shaped microfluidic device structure, which prevents the sample solution from flowing over the gold film used for SPR detection. We were able to measure trace levels of BNP peptide (15 fg) within 30 min since the procedure with our immunosensor is simpler than a multistep immunoassay through the simultaneous use of a labeled enzymatic reaction and the real-time monitoring of enzymatic product accumulation in the microfluidic device. We employed the procedure to detect serum BNP by using spiked samples in human serum and achieved satisfactory recovery for heat-treated samples to denature the esterase in the serum before the immunoreaction.

Published
2006

9. Plastic ELISA-on-a-chip based on sequential cross-flow chromatography

Author

Cho, Joung-Hwan, Han, Seung-Mok, Paek, Eui-Hwan, Cho, Il-Hoon, and Paek, Se-Hwan

Subjects
Chromatography -- Analysis, Immunoassay -- Analysis, Chemistry
Abstract

A plastic chip that can perform immunoassays using an enzyme as signal generator, i.e., ELISA-on-a-chip, was developed by incorporating an immunostrip into channels etched on the surfaces of the chip. To utilize an analytical concept of cross-flow chromatography, the chip consisted of two cross-flow channels in the horizontal and vertical directions. In the vertical channel, we placed a 2-mm-wide immunostrip for cardiac troponin I (cTnI), which was identical to a conventional rapid test kit except for the utilization of an enzyme, horseradish peroxidase (HRP), as tracer. An enzyme substrate supply channel and a horizontal flow absorption pad compartment were transversely arranged on each lateral side of the signal generation pad of the strip, respectively. Upon application of a sample containing cTnI, it migrated vertically through the membrane strip by capillary action, and antigen--antibody binding occurred. After 15 min, the horizontal flow was initiated by the addition of a chromogenic substrate solution for HRP into the supply channel and by partial superimposition of the horizontal flow absorption pad onto the signal generation pad. A color signal proportional to the analyte concentration was produced on this pad, measured after 5 min as optical densities using a digital camera-based detector, and quantified by integration of the densities under the peak after normalization. Its calibration curve indicated that the detection limit of the chip was ~0.1 ng/mL and its quantification limit was 0.25 ng/mL. In measuring blindly prepared samples, the chip performance correlated with that of a reference system, Beckman Coulter Access, within 2.5-fold discrepancy at the detection limit.

Published
2006

10. Gold-coated magnetic particles for solid-phase immunoassays: enhancing immobilized antibody binding efficiency and analytical performance

Author

Zhang, Hairong and Meyerhoff, Mark E.

Subjects
Antibodies -- Research, Viral antibodies -- Research, Gold compounds -- Structure, Gold compounds -- Properties, Immunoassay -- Analysis, Chemistry
Abstract

The preparation and characterization of gold-coated magnetic particles are described for use as more efficient solid-phase materials in immunoassay development. A thin gold coating on commercial tosylated magnetic polystyrene particles (4.5 [micro]m) is achieved via an electroless plating method involving initial reaction of the particles with Sn(II), followed by redox deposition of [Ag.sup.0], that serves as a catalytic site for the subsequent reduction of [Na.sub.3]Au[(S[O.sub.3).sub.2] in the presence of formaldehyde to yield the adhered gold layer. Scanning electron microscopy, energy-dispersive X-ray analysis, and X-ray photoelectron spectroscopy indicate the presence of the desired [Au.sup.0] outer layer. To characterize the improved yield of antibody binding sites on such gold-coated phases, the modified particles are reacted with the free thiols of Fab' fragments of an anti-alkaline phosphatase (ALP) antibody to orient all the antigenic binding sites in a favorable direction. After equilibration with ALP, the amount of ALP bound to the surface of such particles is nearly 2.5-fold greater than on non-gold-coated particles possessing the same amount of immobilized anti-ALP Fab', but oriented randomly on the surface. The new gold-coated magnetic particles are further used as a solid phase for developing a sandwich-type enzyme immunoassay to detect C-reactive protein (CRP) using horseradish peroxidase as the enzyme label. The gold-coated magnetic particles with anti-CRP monoclonal Fab' reagents provide assays with enhanced assay slope (1.8-fold), lower nonspecific adsorption, and a detection limit improvement of nearly 10-fold (0.14 vs 1.9 ng/mL) compared to the same Fab' anti-CRP immobilized on the initial tosylated polystyrene magnetic particles. The improved assay performance is attributed to the more favorable binding orientation of the self-assembled monolayer of Fab' fragments on the gold-coated particles compared to the random orientation on the non-gold-coated surfaces.

Published
2006

11. Determination of the herbicide acetochlor by fluorescence polarization immunoassay

Author

Deryabina, M.A., Yakovleva, Yu. N., Popova, V.A., and Eremin, S.A.

Subjects
Herbicides -- Research, Herbicides -- Analysis, Immunoassay -- Research, Immunoassay -- Analysis, Fluorescence spectroscopy, Chemistry
Abstract

Abstract -- A fluorescence polarization immunoassay procedure was developed for determining the herbicide acetochlor from the group of chloroacetanilides. Conjugates of fluorescent labeled acetochlor derivatives (tracers) with glycylaminofluorescein and ethylenediaminofluorescein [...]

Published
2005

12. Femtomolar detection of prostate-specific antigen: an immunoassay based on surface-enhanced Raman scattering and immunogold labels

Author

Grubisha, Desiree S., Lipert, Robert J., Park, Hye-Young, Driskell, Jeremy, and Porter, Marc D.

Subjects
Prostate-specific antigen -- Physiological aspects, Nanotechnology -- Usage, Raman effect -- Analysis, Immunoassay -- Analysis, Excited state chemistry -- Research, Chemical compounds, Chemistry, Analytic -- Research, Chemistry
Abstract

A novel reagent for low-level detection in immunoadsorbent assays is described. The reagent consists of gold nanoparticles modified to integrate bioselective species (e.g., antibodies) with molecular labels for the generation of intense, biolyte-selective surface-enhanced Raman scattering (SERS) responses in immunoassays and other bioanalytical applications. The reagent is constructed by coating gold nanoparticles (30 nm) with a monolayer of an intrinsically strong Raman scatterer. These monolayer-level labels are bifunctional by design and contain disulfides for chemisorption to the nanoparticle surface and succinimides for coupling to the bioselective species. There are two important elements in this label design; it both minimizes the separation between label and particle surface and maximizes the number of labels on each particle. This approach to labeling also exploits several other advantages of SERS-based labels: narrow spectral bandwidth, resistance to photobleaching and quenching, and long-wavelength excitation of multiple labels with a single excitation source. The strengths of this strategy are demonstrated in the detection of free prostate-specific antigen (PSA) using a sandwich assay format based on monoclonal antibodies. Detection limits of ~1 pg/mL in human serum and ~4 pg/mL in bovine serum albumin have been achieved with a spectrometer readout time of 60 s. The extension of the method to multianalyte assays (e.g., the simultaneous determination of the many complexed forms of PSA) is discussed.

Published
2003

13. Reagentless amperometric immunosensors based on direct electrochemistry of horseradish peroxidase for determination of carcinoma antigen-125

Author

Dai, Zong, Yan, Feng, Chen, Jin, and Ju, Huangxian

Subjects
Immunoassay -- Analysis, Solution (Chemistry), Voltammetry -- Usage, Electrochemistry -- Research, Antigens -- Physiological aspects, Cancer -- Causes of, Peroxidase, Viral antibodies -- Physiological aspects, Viral antibodies -- Genetic aspects, Antibodies -- Physiological aspects, Antibodies -- Genetic aspects, Chemical tests and reagents, Electrodes, Carbon, Chemical compounds, Chemistry, Analytic -- Research, Chemistry
Abstract

A novel strategy for immunoassay and the preparation of reagentless immunosensors was proposed. This strategy was based on the immobilization of antigen and the direct electrochemistry of horseradish peroxidase (HRP) that was labeled to an antibody. A reagentless immunosensor for carcinoma antigen-125 (CA 125) determination was developed. The immunosensor was prepared by immobilizing CA 125 with titania sol--gel on a glassy carbon electrode by the vapor deposition method. The incubation of the immunosensor in phosphate buffer solution (PBS) including HRP-labeled CA 125 antibody led to the formation of a HRP-modified surface. The immobilized HRP displayed its direct electrochemistry with a rate constant of 3.04 [+ or -] 1.21 [s.sup.-1]. With a competition mechanism, a differential pulse voltammetric determination method for CA 125 was established by the peak current decrease of the immobilized HRP. The current decrease resulted from the competitive binding of the CA 125 in sample solution and the immobilized CA 125 to the limited amount of HRP-labeled CA 125 antibody. Under optimal conditions, the current decrease was proportional to CA 125 concentration ranging from 2 to 14 units m[L.sup-1] with a detection limit of 1.29 units m[L.sup.-1] at a current decrease by 10%. The CA 125 immunosensor showed good accuracy and acceptable precision and fabrication reproducibility with intraassay CVs of 8.7 and 5.5% at 8 and 14 units m[L.sup.-1] CA 125 concentrations, respectively, and interassay CV of 19.8% at 8 units m[L.sup.-1]. The storage stability was acceptable in a pH 7.0 PBS at 4[degrees]C for 15 days. The proposed method provided a new promising platform for clinical immunoassay.

Published
2003

14. Autonomous detection of aerosolized Bacillus anthracis and Yersinia pestis

Author

McBride, Mary T., Masquelier, Don, Hindson, Benjamin J., Makarewicz, Anthony J., Brown, Steve, Burris, Keith, Metz, Thomas, Langlois, Richard G., Tsang, Kar Wing, Bryan, Ruth, Anderson, Doug A., Venkateswaran, Kodumudi S., Milanovich, Fred P., and Colston, Bill W., Jr.

Subjects
Yersinia pestis -- Physiological aspects, Bacillus anthracis -- Physiological aspects, Immunoassay -- Analysis, Nucleic acids, Airborne infection -- Causes of, Pathogenic microorganisms -- Physiological aspects, Chemical compounds, Chemistry, Analytic -- Research, Chemistry
Abstract

We have developed and tested a fully autonomous pathogen detection system (APDS) capable of continuously monitoring the environment for airborne biological threat agents. The system is designed to provide early warning to civilians in the event of a terrorist attack. The final APDS will be completely automated, offering aerosol sampling, in-line sample preparation fluidics, multiplexed detection and identification immunoassays, and orthogonal, multiplexed PCR (nucleic acid) amplification and detection. The system performance (current capabilities include aerosol collection, multiplexed immunoassays, sample archiving, data reporting, and alarming) was evaluated in a field test conducted in a Biosafety Level 3 facility, where the system was challenged with, and detected, a series of aerosolized releases containing two live, virulent biological threat agents (Bacillus anthracis and Yersinia pestis). Results presented here represent the first autonomous, simultaneous measurement of these agents.

Published
2003

15. A general method to select antibody fragments suitable for noncompetitive detection of monovalent antigens

Author

Aburatani, Takahide, Sakamoto, Kenzo, Masuda, Kenji, Nishi, Kosuke, Ohkawa, Hideo, Nagamune, Teruyuki, and Ueda, Hiroshi

Subjects
Viral antibodies, Antibodies, Immunoassay -- Analysis, Carrier proteins, Antigens, Chemistry, Analytic -- Research, Chemistry
Abstract

Previously, immunological detection of a small hapten was only possible in competitive format, which needed a competitor antigen either labeled by a reporter or attached to a carrier protein. Recently, we proposed the open sandwich (OS) immunoassay, a simple immunoassay that can noncompetitively determine monovalent antigen concentration by measuring the antigen-dependent change in a heavy-chain variable region [V.sub.H]/light-chain variable region [V.sub.L] interaction of an antibody. However, there was a limitation in the assay that the antibody used should have a suitable property such that the [V.sub.H]/[V.sub.L] interaction would become fairly strong along with the addition of antigen. Here, we devised a phage-based 'split-Fv system' to rapidly evaluate and select antibody variable region (Fv) fragments that are suitable to OS immunoassay. When three antibodies raised against endocrine disruptor bisphenol A were tested with this system, all were more or less suitable to OS-ELISA. Among them, the best Fv selected was used to construct fusion proteins of [V.sub.H] tethered to an alkaline phosphatase and a tagged [V.sub.L] that can be site-specifically biotinylated to perform direct OS-ELISA. The results showed that the OS-ELISA detects bisphenol A with higher sensitivity than the corresponding competitive assay, also implying that many antibodies to small haptens have suitable properties for OS-ELISA.

Published
2003

16. Preparation of quantum dot-biotin conjugates and their use in immunochromatography assays

Author

Lingerfelt, Brian M., Mattoussi, Hedi, Goldman, Ellen R., Mauro, J. Matthew, and Anderson, George P.

Subjects
Immunoassay -- Analysis, Enterotoxins, Viral antibodies, Antibodies, Binding proteins, Hydrogen-ion concentration, Solution (Chemistry), Biotin, Chemistry, Analytic -- Research, Chemistry
Abstract

Biotinylated, highly luminescent CdSe-ZnS quantum dot (QD) conjugates were prepared and used in immuno-filtration assays. Water-soluble quantum dot surfaces having a homogeneous negative charge density at basic pH were initially coated with a two-domain recombinant maltose-binding protein appended with a positively charged leucine zipper. Biotin functionalization of these electrostatically stabilized QD-protein complexes was then carried out using amine-reactive NHS biotin. These protein-coated biotin-functionalized quantum dot conjugates were incorporated into flow immunofiltration/displacement assays employing Affi-gel agarose resin for antibody immobilization, analyte capture, and immune complex formation with a second biotinylated antibody. A key component of the assay was the use of tetranitromethane-modified NeutrAvidin, used to link the biotinylated QDs to the immune complexes and facilitate their release at basic pH for subsequent quantification. This assay methodology was used to detect as little as 10 ng/mL staphylococcal enterotoxin type-B.

Published
2003

17. Self-contained microelectrochemical immunoassay for small volumes using mouse IgG as a model system

Author

Aguilar, Zoraida P., Vandaveer, Walter R., IV, and Fritsch, Ingrid

Subjects
Microelectromechanical systems -- Analysis, Immunoassay -- Analysis, Antigens -- Usage, Chemistry
Abstract

A self-contained, microelectrochemical immunoassay on the smallest volumes reported to date (1 [micro]L for the antigen, 1 [micro]L for the secondary antibody-enzyme conjugate, and 200 nL for the electrochemically detected species) has been developed using mouse IgG as a model system in a sandwich-type enzyme-linked immunosorbant assay, which takes less than 30 min to both complete the assembly of immunoassay components onto the antibody-modified surface and detect enzymatically generated species (excluding time for electrochemical cleaning of electrodes). These studies demonstrate the advantage of the close proximity of electrodes to modified surfaces and their application in the analysis of small volumes. Using a 50 [micro]m diameter x 8 [micro]m deep cavity with individually addressable electrodes on a microfabricated chip, the primary antibody was selectively and covalently attached at a gold, recessed microdisk (RMD) at the bottom of the microcavity to the free end of SAMs of either 11-mercaptoundecanoic acid or 11-mercapto-1-undecanol using 1-ethyl-3-[3-(dimethylamino)propyl]carbodiimide hydrochloride. Nonspecific adsorption to the surrounding material, polyimide, of the microcavity device was eliminated. Electrochemical desorption was used to confine the immunoassay activity at the RMD. Enzymatic conversion of the substrate p-aminophenyl phosphate to p-aminophenol is detectable in less than 30 s using cyclic voltammetry at a gold, tubular nanoband electrode, which is on the wall of the microcavity and immediately adjacent to the modified RMD. A third electrode, also within the region of the microcavity, served as the pseudoreference/auxiliary electrode. Calibration curves obtained for 1-[micro]L solutions of 5-100 ng/mL of IgG and for 200 nL-solutions of 5 [micro]M to 4 mM of PA[P.sub.R] gave detection limits of 4.4 nM (6.4 ng/mL) or 880 fmol (129 pg) for PA[P.sub.R] and 56 fM (9 pg/ mL) or 56 zmol (9 fg) for IgG. It is expected that the device may be suitable for analysis with volumes down to tens of picoliters.

Published
2002

18. False-positive AxSYM cardiac troponin I results in a 53-year-old woman. (Case Reports)

Author

Knoblock, Ronald J., Lehman, Christopher M., Smith, Ruth A., Apple, Fred S., and Roberts, William L.

Subjects
Immunoassay -- Analysis, Antibodies -- Analysis, Diagnosis, Laboratory -- Methods
Abstract

* A number of classes of endogenous antibodies, including heterophile, rheumatoid factor, and autoantibodies, can interfere with immunoassay measurements of many different analytes. Heterophile and rheumatoid factor antibody interferences have been described previously for the AxSYM cardiac troponin I assay. Several commercial products have been developed to neutralize heterophile antibody interferences. We describe a patient with multiple apparently falsely elevated cardiac troponin I results that were unique to the AxSYM analyzer. These cardiac troponin I results diluted linearly. When treated with 2 different heterophile-blocking reagents, the magnitudes of the falsely elevated results increased 17- and 26-fold, and these results also demonstrated dilution linearity. This interfering substance could be removed by passage through an immobilized protein A column and by polyethylene glycol precipitation. It does not appear to be a classic heterophile antibody, nor is it a paraprotein. Laboratorians must remain constantly vigilant for immunoassay interferences that lead to clinically significant inaccurate results and must recognize that accepted methods for detecting and neutralizing the interference may be ineffective., Endogenous antibodies can interfere with in vitro immunoassay measurements. (1) These interfering antibodies may react with proteins from multiple animal species. The most commonly encountered interfering antibodies are anti-mouse, referred [...]

Published
2002

19. Colloidal Au-enhanced surface plasmon resonance immunosensing

Author

Lyon, L. Andrew, Musick, Michael D., and Natan, Michael J.

Subjects
Plasma spectroscopy -- Analysis, Immunoassay -- Analysis, Chemistry, Analytic -- Methods, Remote sensing -- Analysis, Chemistry
Abstract

Surface plasmon resonance (SPR) biosensing using colloidal Au enhancement is reported. Immobilization of [approximately] 11-nm-diameter colloidal Au to an evaporated Au film results in a large shift in plasmon angle, a broadened plasmon resonance, and an increase in minimum reflectance. The incorporation of colloidal Au into SPR biosensing results in increased SPR sensitivity to protein-protein interactions when a Au film-immobilized antibody and an antigen-colloidal Au conjugate comprise the binding pair. A highly specific particle-enhanced analogue of a sandwich immunoassay is also demonstrated by complexing the Au particle to a secondary antibody. A tremendous signal amplification is observed, as addition of the antibody-Au colloid conjugate results in a 25-fold larger signal than that due to addition of a free antibody solution that is 6 orders of magnitude more concentrated. Picomolar detection of human immunoglobulin G has been realized using particle enhancement, with the theoretical limits for the technique being much lower. Finally, a quasi-linear relationship between particle coverage and plasmon angle shift is presented, thereby providing for a direct correlation between plasmon shift and solution antigen concentration. Together, these results represent significant advances in the generality and sensitivity of SPR as it is applied to biosensing.

Published
1998

20. Colloidal Au-enhanced surface plasmon resonance immunosensing

Author

Lyon, L. Andrew, Musick, Michael D., and Natan, Michael J.

Subjects
Plasma spectroscopy -- Analysis, Immunoassay -- Analysis, Chemistry, Analytic -- Methods, Remote sensing -- Analysis, Chemistry
Abstract

Surface plasmon resonance (SPR) biosensing using colloidal Au enhancement is reported. Immobilization of [approximately] 11-nm-diameter colloidal Au to an evaporated Au film results in a large shift in plasmon angle, a broadened plasmon resonance, and an increase in minimum reflectance. The incorporation of colloidal Au into SPR biosensing results in increased SPR sensitivity to protein-protein interactions when a Au film-immobilized antibody and an antigen-colloidal Au conjugate comprise the binding pair. A highly specific particle-enhanced analogue of a sandwich immunoassay is also demonstrated by complexing the Au particle to a secondary antibody. A tremendous signal amplification is observed, as addition of the antibody-Au colloid conjugate results in a 25-fold larger signal than that due to addition of a free antibody solution that is 6 orders of magnitude more concentrated. Picomolar detection of human immunoglobulin G has been realized using particle enhancement, with the theoretical limits for the technique being much lower. Finally, a quasi-linear relationship between particle coverage and plasmon angle shift is presented, thereby providing for a direct correlation between plasmon shift and solution antigen concentration. Together, these results represent significant advances in the generality and sensitivity of SPR as it is applied to biosensing.

Published
1998

21. Microminiaturized immunoassays using atomic force microscopy and compositionally patterned antigen arrays

Author

Jones, Vivian W., Kenseth, Jeremy R., and Porter, Marc D.

Subjects
Immunoassay -- Analysis, Atomic force microscopy -- Usage, Rabbits -- Physiological aspects, Immunoglobulins -- Analysis, Chemistry
Abstract

This paper combines the topographic imaging capability of the atomic force microscope (AFM) with a compositionally patterned array of immobilized antigenic rabbit IgG on gold as an approach to performing immunoassays. The substrates are composed of micrometer-sized domains of IgG that are covalently linked to a photolithographically patterned array of a monolayer-based coupling agent. The immobilized coupling agent, which is prepared by the chemisorption of dithiobis(succinimidyl undecanoate) on gold, is separated by micrometer-sized grids of a monolayer formed from octadecanethiol (ODT). The strong hydrophobicity of the ODT adlayer, combined with the addition of the surfactant Tween 80 to the buffer solution that is used in forming the antibody-antigen pairs, minimizes the nonspecific adsorption of proteinaceous materials to the grid regions. This minimization allows the grids to function as a reference plane for the AFM detection of the height increase when a complementary antibody-antigen pair is formed. The advantageous features of this strategy, which include ease of sample preparation, an internal reference plane for the detection of topographic changes, and the potential for regeneration and reuse, are demonstrated using rabbit IgG as an immobilized antigen and goat anti-rabbit IgG as the complementary antibody. The prospects for further miniaturization are discussed.

Published
1998

22. Liquid-phase binding assay of alpha-fetoprotein using a sulfated antibody for bound/free separation

Author

Nakamura, Kenji, Imajo, Nobuko, Yamagata, Yukari, Katoh, Hideo, Fujio, Kazunari, Tanaka, Takumi, Satomura, Shinji, and Matsuura, Shuji

Subjects
Immunoassay -- Analysis, Alpha fetoproteins -- Research, Antibodies -- Research, Chemistry
Abstract

A rapid immunoassay using a sulfated antibody for bound/free separation in a liquid-phase binding assay is described. A first anti-[Alpha]-fetoprotein monoclonal antibody was labeled with peroxidase (Fab[prime]-POD) and a second monoclonal antibody was conjugated with polysulfated tyrosine peptide (Fab[prime]-YS). The monoclonal antibodies and [Alpha]-fetoprotein (AFP) were mixed, incubated, and analyzed directly by anion-exchange column chromatography. The amount of POD activity in the column effluent was determined fluorophotometrically. The bound (Fab[prime]POD + AFP + Fab[prime] - YS) and free (Fab[prime] - POD) forms of the conjugate were clearly and easily separated by ionic charge, and the free sulfated antibody (Fab[prime] - YS) was not detectable fluorophotometrically. The elution position of the bound conjugate was adjusted by varying the length of the polysulfated tyrosine peptide. This method is convenient for antigen measurement because (1) only two modified antibodies are used in a buffer solution, (2) the concentration of antibodies and other assay conditions are easily set, (3) no solid phase is required, and (4) no washing is necessary.

Published
1998

25. Human uridine monophosphate synthase: baculovirus expression, immunoaffinity column purification and characterization of the acetylated amino terminus

Author

Han, Byoung-Don, Livingstone, Laura R., Pasek, Daniel A., Yablonski, Michael J., and Jones, Mary Ellen

Subjects
Proteins -- Synthesis, Amino acids -- Synthesis, Baculoviruses -- Research, Immunoassay -- Analysis, Biological sciences, Chemistry
Abstract

The N-terminal sequence of pure human uridine monophosphate synthase is modified in vitro and that changes involve removal of N-terminal methionine residue from the gene-coded sequence and subsequent acetylation of the formerly penultimate alanine residue to yield acetyl-AVAR as the acetylated N-terminal tetrapeptide. Purified protein expressed in cabbage looper (Tricoplusiani) larvae expressing human cDNA also begins with the N-terminal acetyl-AVAR.

Published
1995

26. Development of a monoclonal antibody-based immunoassay for the detection and quantification of Anguillospora longissima colonizing leaf material

Author

Bermingham, S., Dewey, F.M., and Maltby, L.

Subjects
Immunoassay -- Analysis, Monoclonal antibodies -- Observations, Biological sciences
Abstract

The mycelium of Anguillospora longissima grown on the decomposing leaf material is diagnosed both in vitro and in vivo by immunofluorescence, enzyme-linked immunosorbent assay and immunoenzymatic staining processes using the monoclonal antibody AL-HH8c. At any age and culture conditions of the mycelial, the AL-HH8c identifying antigens are obtained.

Published
1995

27. Combined use of serum and urinary antibody for diagnosis of tuberculosis

Author

Singh, Krishna K., Dong, Yuxin, Hinds, Laura, Keen, Marc A., Belisle, John T., Zolla-Pazner, Susan, Achkar, Jacqueline M., Nadas, Arthur J., Arora, Vijay K., and Laal, Suman

Subjects
Immunoassay -- Analysis, Tuberculosis -- Health aspects, Tuberculosis -- Care and treatment, Tuberculosis -- Prevention, Tuberculosis -- Diagnosis, Viral antibodies -- Physiological aspects, Antibodies -- Physiological aspects, Serum -- Physiological aspects, Airborne infection -- Research, Airborne infection -- Causes of, Health
Published
2003

31. Development of a fluorescent intensity assay amenable for high-throughput screening for determining 15-lipoxygenase activity

Author

Dahlstrom, Marta, Forsstrom, Daniel, Johannesson, Malin, Huque-Andersson, Yasmin, Bjork, Marie, Silfverplatz, Erik, Sanin, Andrei, Schaal, Wesley, Pelcman, Benjamin, and Forsell, Pontus K. A.

Subjects
Arachidonic acid -- Research, Immunoassay -- Analysis, Lipids -- Chemical properties, Oxidation-reduction reaction -- Analysis, Biological sciences
Published
2010

32. Numerical investigation of flow-through immunoassay in a microchannel

Author

Sinha, A, Ganguly, R, and I K. Puri

Subjects
Biosensors -- Magnetic properties, Biosensors -- Electric properties, Immunoassay -- Analysis, Microfluidics -- Analysis, Physics
Abstract

Immunomagnetic separation (IMS) method is utilized to isolate biomaterials from a host fluid in which specifically selected antibodies attached to magnetic particles bind with their corresponding antigens on the surface of the target biological entities. The IMS method is found to have promising applications in microscale biosensors.

Published
2010

33. Multiplexed sandwich immunoassays using electrochemiluminescence imaging resolved at the single bead level

Author

Deiss, Frederique, LaFratta, Christopher N., Symer, Matthew, Blicharz, Timothy M., Sojic, Neso, and Walt, David R.

Subjects
Antigens -- Chemical properties, Antigens -- Optical properties, Chemiluminescence -- Evaluation, Immunoassay -- Analysis, Digital multiplexing -- Usage, Multichannel communication -- Usage, Multiplexing -- Usage, Chemistry
Abstract

A new class of bead-based microarray is described that has used electrogenerated chemiluminescence (ECL) as a readout mechanism to detect multiple antigens simultaneously. This platform has helped in performing highly multiplexed assays by using ECL because all the individual sensing beads in the array are simultaneously imaged and individually resolved by ECL.

Published
2009

34. Magnetic relaxation measurement in immunoassay using high-transition-temperature superconducting quantum interference device system

Author

G.L. Fang; W.H. Huang, H.C. Yang; S.Y. Yang, C.H. Liu, and Chin-Yih Hong

Subjects
Superconducting quantum interference devices -- Analysis, Immunoassay -- Analysis, Physics
Abstract

The design and construction of a high-transition-temperature radio-frequency superconducting quantum interference device (SQUID) magnetometer system for measuring the magnetic relaxation of labeled avidin is described. The specifications of the SQUID-based magnetically labeled immunoassay of avidin are determined.

Published
2006

35. Effects of the Ionic Environment, Charge, and Particle Surface Chemistry for Enhancing a Latex Homogeneous Immunoassay of C-Reactive Protein

Author

Perez-Amodio, Soledad, Holownia, Peter, Davey, Carol L., and Price, Christopher P.

Subjects
Immunoassay -- Analysis, C-reactive protein -- Analysis, Light scattering -- Analysis, Agglutination -- Analysis, Chemistry
Abstract

The role of the solution environment for a light-scattering, latex-particle-enhanced, homogeneous immunoassay of C-reactive protein (CRP) has been investigated in order to assess and optimize the immunoagglutination response. Latex particles of 50-170-nm sizes were covalently coupled with an IgG polyclonal antibody and subjected to an extensive optimization regime. This consisted of conditions responsible, in different degrees, for the principal attractive/repulsive forces affecting both colloidal stability and the antibody/antigen interaction: particle size, antibody concentration, ionic strength and species, pH, and amino acid chemistry of the particle surface. Careful control of these parameters was found to be necessary to achieve the desired effects of balancing high colloidal stability in the absence of antigen but promoting a rapid, sensitive, and dose-dependent agglutination with pathological serum samples. In addition, the estimation of fundamental properties governing intermolecular interaction (i.e. the 'Hamaker' constant and critical coagulation concentration) was attempted to order to investigate a simple, practical means of defining a colloidal/immunoassay system under 'real conditions' as well as 'real time'. It is concluded that because each antibody system is unique, a similar optimization should be performed in diagnostic immunoassays of this type to maximize their clinical utility.

Published
2001

36. Effect of Poly(ethylene glycol), Tetramethylammonium Hydroxide, and Other Surfactants on Enhancing Performance in a Latex Particle Immunoassay of C-Reactive Protein

Author

Holownia, Peter, Perez-Amodio, Soledad, and Price, Christopher P.

Subjects
Polyethylene glycol -- Analysis, Surface active agents -- Analysis, C-reactive protein -- Analysis, Immunoassay -- Analysis, Chemistry
Abstract

The influence of a variety and combination of both ionic surfactants and different chain lengths of the polyelectrolyte poly(ethylene glycol) (PEG) on the performance characteristics (with particular reference to signal response) of a homogeneous, latex agglutination immunoassay was investigated. The test analyte was human serum C-reactive protein (CRP), and the antibody reagent consisted of a sheep polyclonal anti-CRP IgG fraction covalently coupled to 50-nm-sized latex including a glycine-capped chloromethylstyrene shell. The amount and rate of immunoagglutination was monitored turbidimetrically after sample addition. It was found that 2.5 mmol/L concentrations of the small cationic surfactant tetramethylammonium hydroxide (TMH), when present alone, substantially increased both reaction rates and sensitivity in the lower clinical ranges of CRP concentration when compared to normally used assay conditions containing PEG and the anionic detergent Gafac. The nonspecific binding (NSB) was also found to be unchanged. Evidence is presented that the TMH enhances the actual antibody--antigen interaction as opposed to the known effects of other surfactants in immunocomplex dissociation or in maintenance of colloidal stability. We suggest that the enhancement seen with TMH Could be an alternative to PEG and may provide a new means of further extending detection limits. The utility of this type of immunoassay technology could therefore be increased whenever clinically required.

Published
2001

37. Wrong biochemistry results: interference in immunoassays is insidious and could adversely affect patient care

Author

Ismail, Adel AA and Barth, Julian H.

Subjects
Medical tests -- Analysis, Immunoassay -- Analysis, Diagnostic errors -- Causes of -- Analysis, Health, Analysis, Causes of
Abstract

Interference in immunoassays is insidious and could adversely affect patient care The success of analytical methods in clinical chemistry has led to a sense of security in the value of [...]

Published
2001

39. Multiplexed biochemical assays with biological chips

Author

Fodor, Stephen P.A., Rava, Richard P., Xiaohua C. Huang, Pease, Ann C., Holmes, Christopher P., and Adams, Cynthia L.

Subjects
Peptides -- Research, Immunoassay -- Analysis, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Miniature biological arrays or chips are used for multiple biochemical assays such as mapping of epitome, development of chemical analogues, genetic diagnostics and sequencing by hybridixation. Two techniques were used in scanning the measurement of molecular binding of individual sites. Miniaturized peptides and oligonucleotide chips are used in DNA sequence analysis, and find application in DNA mapping, DNA mutation analysis, sequencing, sequence checking and medical diagnostics. The flexibility in the construction of oligonucleotide arrays, facilitates chips in the study of specific genes.

Published
1993

40. Immunoassay drug screen results: easy to get, hard to interpret

Author

Fisher, John

Subjects
Immunoassay -- Analysis, Toxicity testing -- Evaluation, Environmental issues, Health, Pharmaceuticals and cosmetics industries
Abstract

Immunoassay (IA) based serum toxicology test results have the advantage of being quickly obtained, easily automated, inexpensive, and largely independent of operator skill. This type testing has the disadvantages of [...]

Published
1998

41. Tricyclic antidepressant (TCA) urine immunoassays: making better use of a test

Author

Gee, A, McKay, CA, and Wu, AHB

Subjects
Antidepressants, Tricyclic -- Physiological aspects, Urine -- Analysis, Immunoassay -- Analysis, Poisoning -- Diagnosis, Environmental issues, Health, Pharmaceuticals and cosmetics industries
Abstract

Background: Interpretation of TCA urine immunoassays is confounded by frequent false positive results, often leading to problematic interpretation. Although clinical evaluation of TCA toxicity is most important, increased specificity of these frequently ordered tests would be helpful. We compare two TCA immunoassays with cutoffs of 1000ng/mL (SureStep by Applied Biotech, Inc., and Triage Drags of Abuse Panel by Biosite Diagnostics) with our existing immunoassay (EMIT by Syva, cutoff 300 ng/mL nortriptyline) to determine if the increased threshold is sufficient to decrease false positive results. We also investigate the ability of these assays to identify patients with clinical TCA toxicity. Methods: Adult patients with positive TCA urine assays by EMIT who had stored urine were included in the study. A retrospective chart review was performed, abstracting data for toxicants and clinical evidence of TCA toxicity (hypotension, tachycardia, altered mental status, anticholinergic toxidrome). Available EKGs were reviewed for evidence of abnormal terminal R wave in lead a VR and QRS duration. Results: 66 patients met inclusion criteria. 3 patients demonstrated clinical evidence of TCA toxicity. Both higher cutoff assays detected these 3. Positive predictive values were 4.5%, 12% and 13% for the EMIT, Biosite and Applied Biotech assays respectively. Specificity (95% confidence intervals) was 65% (52-78%) and 68% (56-80%) for the SureStep and Triage assays, respectively. Conclusions: Utilizing a TCA immunoassay with a cutoff of 1000ng/mL maintains sensitivity for TCA overdose, while eliminating more than 1/2 of the false positive results in this patient population. Further study may support the use of low and high threshold testing combined with clinical presentation to suggest the presence of TCA immunoassay cross-reactants., Gee A, McKay CA, Wu, AHB. Hartford Hospital/ UCONN School of Medicine, Hartford, [...]

Published
2002

42. Quetiapine (Seroquel[TM] by AstraZeneca) interference with tricyclic antidepressant immunoassays

Author

McKay, CA and Wu, AHB

Subjects
Antidepressants, Tricyclic -- Physiological aspects, Urine -- Analysis, Immunoassay -- Analysis, Poisoning -- Diagnosis, Environmental issues, Health, Pharmaceuticals and cosmetics industries, Seroquel (Medication) -- Physiological aspects
Abstract

Background: Urine immunoassays for tricyclic antidepressants (TCAs) suffer from many cross-reactivities which vary by concentration of the interfering substance and manufacturer. A recent report (Sloan et al., Am J Psych 2000) indicated that the new atypical antipsychotic, quetiapine fumurate, gave a positive TCA result in an immunoassay marketed by Diagnositc Reagents, Inc. This assay uses a calibrator cutoff of 300ng/ml for nortriptyline. TCA immunoassays rely on polyclonal sheep antibodies. We have seen two patients with quetiapine overdoses who had positive EMIT TCA assays; the presence of quetiapine and absence of typical TCAs was confirmed by high performance liquid chromatography (Remedi, BioRad Labs, Hercules, CA). An in vitro study of quetiapine cross-reactivity with three TCA immunoassays was conducted. Methods: A 25 mg tablet of quetiapine was dissolved in 250 ml of water and serial dilutions tested by the EMIT system (Syva Co.; cutoff of 300 ng/ml), and two point-of-care (POC) devices, Triage Drugs of Abuse Panel (Biosite Diagnostics; cutoff 1000ng/ml), and SureStep (Applied Biotech; cutoff 1000ng/ml). Results: The EMIT assay was positive at 4.5[micro]g/ml (cross reactivity 6.6%), comparable to the previous report of 4.3% using the Diagnostics Reagents, Inc. assay. There was no cross-reactivity with either of the two POC assays when tested up to 1001ag/mi (cross reactivity, McKay CA, Wu, AHB. Hartford Hospital/UCONN School of Medicine, Hartford, [...]

Published
2002

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