Chemistry: analytical and immunological testing – Involving diffusion or migration of antigen or antibody
Reexamination Certificate
1998-11-09
2004-04-06
Chin, Christopher L. (Department: 1641)
Chemistry: analytical and immunological testing
Involving diffusion or migration of antigen or antibody
C422S051000, C422S051000, C422S051000, C422S051000, C435S287100, C435S287200, C435S287700, C435S287900, C435S805000, C435S810000, C435S970000, C435S007900, C436S169000, C436S172000, C436S518000, C436S524000, C436S525000, C436S531000, C436S533000, C436S534000, C436S810000, C436S815000
Reexamination Certificate
active
06716639
ABSTRACT:
The invention relates to a immunoassay apparatus for detecting nicotine or cotinine.
Nicotine is a primary alkaloid of tobacco; the nicotine content in commercial tobaccos can amount to between 0.3 and 3%, and in heavy grades, up to 7%. However, nicotine is broken down relatively quickly in the body; the primary metabolite of nicotine is cotinine, which is the 2-pyrrolidinone corresponding to nicotine. While nicotine has a biological half-life in human blood of approximately one-half hour, cotinine, which as a secondary alkaloid also occurs in tobacco, has a biological half-life of about 30 to 40 hours and occurs in the blood, serum or urine of smokers in substantially higher concentrations than nicotine. Detecting cotinine is therefore considered to be a reliable indicator of a person's smoking or nonsmoking.
Since in certain work environments, such as in the chemical or oil industry, smoking can present a considerable risk because of the attendant risk of fire or explosion, on the one hand, and on the other alkaloids not contained in tobacco but other accompanying products produced during smoking are also considered to have a considerable risk to health, there has long been a need, not only in the processing industry but also on the part of insurance companies, for instance, for a quickly performed and reliable test for checking whether persons who say they are nonsmokers are in fact nonsmokers. However, until now, no rests for nicotine or cotinine that could be performed quickly and simply were available.
It is indeed already known that cotinine, as a primary metabolite of nicotine, is suitable for detecting smoking with the aid of immunoassays; for instance, van Vunakis, H. et al., in Am. J. Obstet. Gynecol. 120, 64 ff. (1974) have described a radio immunoassay for detecting nicotine and cotinine in the amniotic fluid of pregnant women smokers, and Bjercke, R. J. et al., in Journal of Immunological Methods, 90 (1986) 203 pp., have described an ELISA test for detecting antibodies to nicotine and cotinine. Although radio immunoassays and ELISA tests are relatively reliable methods for detecting nicotine or cotinine, still they can be performed only by professionals and are time-consuming, and thus are completely unsuitable as a reliable, conveniently performed fast test.
Surprisingly, it has now been discovered that such a fast test for nicotine or cotinine can be performed on the basis of an immunoassay, if an immunoassay apparatus in accordance with the main claim is used.
Immunoassays are highly sensitive determination methods, which are based on the specificity of immunological reactions, primarily antigen and antibody reactions. For qualitative or quantitative analysis, it is necessary to mark one of the reaction partners with a readily detectable and measurable indicator substance, such as radioactive isotopes, enzymes, dyes and fluorescent dyes. Usually this involves solid-phase tests, in which the marker bound to the solid phase is measured. Microtiter slides, as in ELISA tests, or solid substrates, for which nitrocellulose has proven itself in particular, are used as the solid phase. Solid-phase tests are designed such that a solid substrate is subdivided into various sections, and the liquid, aqueous medium to be tested is applied to the initial part of the substrate; the liquid can then move by capillary action of the substrate all the way through the substrate, and excess liquid is rinsed off or caught in a so-called liquid trap. The solid substrate is provided with either marked antigen or marked antibody inside a first section, so that when the substance to be detected, which is in solution, is added an antigen-antibody reaction ensues; the marker can be coupled to either the antigen or the antibody. The antigen-antibody reaction product then migrates with the liquid into a second section, which has either an immobilized antigen or an immobilized antibody, with which the product of the substance to be detected and the antigen or antibody is converted in a competitive reaction, or if a sandwich test is involved, is converted twice. As a result, a concentration of the marker in this region ensues, and the concentration can then be assessed qualitatively or quantitatively with a suitable measuring instrument, or if dyes that are adsorbent in the visible range are used as markers, can be perceived with the naked eye. Excess and therefore unused marked antigens or antibodies may possibly migrate into a third section, in which they are then bound for instance by antigens or antibodies with a different specificity and thus can be used as controls.
Solid-phase immunoassays of the competitive or sandwich type are familiar to one skilled in the art and therefore need not be described in further detail. For instance, such tests are described in detail in European Patent Disclosures EP-A1 0 284 232 or EP B1 0 291 194.
The apparatus according to the invention comprises a so-called “dipstick”, that is, a porous substrate in which the coupling product of the detection reagent and the substance to be detected can migrate by capillary action, and which to improve its mechanical properties is in turn secured to a substrate, such as a plastic slide. The substrate, that is, the solid-phase material, may comprise various porous materials that thus dictate capillary action, such as cellulose, polyamide, pretreated papers, and so forth, but preferably nitrocellulose is used. The substrate has a first section, which carries a marked detection reagent for the substance to be detected, which depending on the arrangement of the test is either a marked antibody or a marked antigen. The marking is done with particles, which are preferably either small, dyed plastic particles, especially of polystyrene, or metal sols, and especially gold sol, because even when greatly diluted gold sol has a bluish-red coloring that can be readily seen by the naked eye. When his first section is moistened with the substance to be detected, which is in solution, a coupling product of marked detection reagent and the compound to be analyzed is created; in the moist state of the substrate, this product can migrate out of the first section into the second section. An immobilized binder reagent, which in turn depending on the layout of the test may be a non-marked antibody or a non-marked antigen, is located in the second section.
If desired, the apparatus can also include a third section, namely a control zone, from which it can be told whether the process has proceeded correctly. The marked antigens or antibodies not used by the coupling with the binder reagent can then be converted in this control zone, for instance, with an immobilized antigen or antibody of different specificity, or the control zone may contain a substance which for instance reacts with the aqueous substrate by changing color, so that in one way or another an indication is made that the aqueous solution that was applied in the first section has in fact reached the location of the control strip, so that the reaction can then be considered to have ended.
Preferably, according to the invention the reaction is performed such that an antibody capable of migration is used in the first section and an immobilized antigen is used in the second section; by way of example, antigens and antibodies of the kind described at length in the above-cited work by Bjercke, R. J. et al. can be used. The antibodies are conjugated for use with a marker, especially with gold sol.
If a third section with a control option is desired, then in this third section by way of example a commercially available “anti-mouse” immunoglobulin from rabbits can be used, which is immobilized there if antibodies from the mouse are used in the first section.
To protect the apparatus or dipstrip against environmental factors such as moisture, dust, and so forth, the dipstrip is preferably located in a hood, which encloses the entire strip except for part of the first section. The hood preferably comprises water-repellent, dustproof plastic. In a further preferred embodiment, the h
Chin Christopher L.
ulti med Products (Deutschland) GmbH
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