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Homogeneous immunoassay fluorescence immunoassays

Using the same PAbs an optical biosensor system has been developed for 2,4,6-TCP [224]. The principle is the detection of laser-induced fluorescence (LIF) in single microdroplets by a homogeneous quenching fluorescence immunoassay (QFIA). The competitive immunoassay occurs in microdroplets (d=58.4 mm) produced by a piezoelectric generator system. A continuous Ar ion laser (488 nm) excites the fluorescent tracer and its fluorescence is detected by a spectrometer attached to a cooled, charge-coupled device (CCD) camera... [Pg.162]

T. A. Kelly and G. D. Christian, Homogeneous Enzymatic Fluorescence Immunoassay of Serum IgG by Continuous Flow Injection Analysis. Ta-lanta, 29 (1982) 1109. [Pg.404]

Figure 14.3. Distinction between homogeneous and heterogeneous immunoassay formats. Haptenic analytes are indicated as triangles, and conjugated fluorescent probes are indicated by the letter F. In this hypothetical depiction, the homogeneous immunoassay is quantitated in the original reaction mixture. The heterogeneous immunoassay requires removal of unreacted tracer, further addition of reagents such as an enzyme to release a fluorescent molecule F, followed by quantitation. Figure 14.3. Distinction between homogeneous and heterogeneous immunoassay formats. Haptenic analytes are indicated as triangles, and conjugated fluorescent probes are indicated by the letter F. In this hypothetical depiction, the homogeneous immunoassay is quantitated in the original reaction mixture. The heterogeneous immunoassay requires removal of unreacted tracer, further addition of reagents such as an enzyme to release a fluorescent molecule F, followed by quantitation.
Homogeneous TR-FIAs have been reported in which proprietary lanthanide chelates are used. In a homogeneous immunoassay for T4, a fluorescent europium chelate coupled to thyroxine is quenched by antibody binding. 90 A similar approach is used for estrone-3-glucuronide. 91 TRFIAs based on homogeneous methods have not yet become widely used. [Pg.469]

A disposable, patterned, planar waveguide with a number of individual wells has been reported for a one-step homogeneous immunoassay of IgG.<133) The device is fabricated by an ion-exchange process, etching, and covalent reagent immobilization. The sample fills the waveguide by capillary action. The sample well, as well as fluorescent and nonfluorescent control wells are excited by an evanescent field, and individually scanned. The IgG detection limit is in the 10range. [Pg.488]

F. V. Bright and L. B. McGown, Homogeneous immunoassay of phenobarbital by phase-resolved fluorescence spectroseopy, Talanta 32, 15-18 (1985). [Pg.492]

Figure 6.2. Chemical structure of 8-[3-(7-/)-galactosylcoumarin-3-carboxyamido )propyl ] theophylline (B) used in the homogeneous substrate-labeled fluorescent immunoassay for theophylline (A). (Reprinted from Ref. 3, with permission from the American Association for Clinical Chemistry.)... Figure 6.2. Chemical structure of 8-[3-(7-/)-galactosylcoumarin-3-carboxyamido )propyl ] theophylline (B) used in the homogeneous substrate-labeled fluorescent immunoassay for theophylline (A). (Reprinted from Ref. 3, with permission from the American Association for Clinical Chemistry.)...
In the past ten years, numerous applications of fluorescence methods for monitoring homogeneous and heterogeneous immunoassays have been reported. Advances in the design of fluorescent labels have prompted the development of various fluorescent immunoassay schemes such as the substrate-labeled fluorescent immunoassay and the fluorescence excitation transfer immunoassay. As sophisticated fluorescence instrumentation for lifetime measurement became available, the phase-resolved and time-resolved fluorescent immunoassays have also developed. With the current emphasis on satellite and physician s office testing, future innovations in fluorescence immunoassay development will be expected to center on the simplification of assay protocol and the development of solid-state miniaturized fluorescence readers for on-site testing. [Pg.286]

Methods for the Detection of Antigens/Antibodies Equilibrium and kinetic inhibition assays based upon fluorescence polarization, 70, 3 fluorescence excitation transfer immunoassay (FETI), 70, 28 indirect quenching fluoroimmunoassay, 70, 60 the homogeneous substrate-labeled fluorescent immunoassay, 70, 79 fluorescence immunoassays using plane surface solid phases (FIAPS), 70, 87. [Pg.61]

Figure 19-7 Scatchard plot for binding of antigen (X) to antibody (P). The antibody binds the explosive trinitrotoluene (TNT). The antigen is a fluorescent analog of TNT. From the slope, the binding constant for the reaction P + X PX is K 4.0 > 109M 1. [Derived from Figure 4 of A. Bromberg and R. A. Mathies, "Homogeneous Immunoassay for Defection of TNT on a Capillary Electrophoresis Chip"Anal. Chem. 2003, 75, 1188]... Figure 19-7 Scatchard plot for binding of antigen (X) to antibody (P). The antibody binds the explosive trinitrotoluene (TNT). The antigen is a fluorescent analog of TNT. From the slope, the binding constant for the reaction P + X PX is K 4.0 > 109M 1. [Derived from Figure 4 of A. Bromberg and R. A. Mathies, "Homogeneous Immunoassay for Defection of TNT on a Capillary Electrophoresis Chip"Anal. Chem. 2003, 75, 1188]...
Ericsson, 1990), the synthesis of fluorescently labeled DNA probes (L. M. Smith et al., 19 8 5), as a label in homogeneous immunoassay systems (Nithipatikom and McGown, 1987), to investigate specific interactions of proteins with cells surfaces (Hochman et al., 1988), and as an important fluorescent tag of antibodies in immunohistochemical staining techniques (Davidson and Hilchenbach, 1990). [Pg.340]

Bacigalupo, M.A., G. Meroni, and R. Longhi. 2006. Determination of carbofuran in water by homogeneous immunoassay using selectively conjugate mastoparan and terbium/dipicolinic acid fluorescent complex. Talanta 69 1106-1111. [Pg.179]

The term homogeneous immunoassay may be defined as an immunoassay in which the extent of the antigen-antibody reaction can be determined without physical separation of the free and bound forms. This term is usually used for immunoassays such as enzyme and fluorescence immunoassays in which labeled substances (markers) are used. It does not include immunoassay systems such as nephelometry in which no labeled substances are used. Homogeneous immunoassays are widely used as routine tests because the procedures involved are simple. The principle of homogeneous immunoassay is based on changes in signals of the indicators by the antigen-antibody reaction (N5, U2). [Pg.71]

In this assay, marker-labeled antigen itself acts as substrate. Kohen et al. (K9) developed a homogeneous immunoassay for steroid using a steroid-fluorescent dye conjugate that yields fluorescent products upon hydrolysis with enzyme. The steroid-fluorescent dye conjugate is inactive as a substrate when bound to the antibody to steroid [F-Ag Ab]. But when unlabeled steroid [Ag] is added, it binds competitively to the antibody [Ab Ag],. and the free form of steroid-fluorescent dye conjugate [F-Ag], which is... [Pg.80]

Alternatively, Briggs et al. (B4) reported a fluorescent immunoassay based on the correlation of fluctuations in particle number measures of the amount of tagged species bound to micrometer-sized beads. A homogeneous competitive assay based on this principle can detect 1 ng of gentamicin per ml from a total sample volume of 10 p.1. [Pg.87]

B6. Burd, J. F., Wong, R. C., Feeney, J. E., Carrico, R. J., and Boguslaski, R., Homogeneous reactant-labeled fluorescent immunoassay for therapeutic drugs exemplified by gentamicin determination in human serum. Clin. Chem. 23, 1402-1408 (1977). [Pg.104]

Fan and Zhang determined acetylcholine and choline in rat brain tissue by a fluorescence immunoassay method, making use of immobilized enzymes and chemiluminescence detection [50]. Tissue was homogenized with a 10 fold volume of 0.6 M HC104, the homogenates were kept on ice for 30 min, and then centrifuged at 2000 G for 20 min. The pellets were... [Pg.72]


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