WO2004014220A2 - Devices and methods for detecting amniotic fluid in vaginal secretions - Google Patents
Devices and methods for detecting amniotic fluid in vaginal secretions Download PDFInfo
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- WO2004014220A2 WO2004014220A2 PCT/US2003/025125 US0325125W WO2004014220A2 WO 2004014220 A2 WO2004014220 A2 WO 2004014220A2 US 0325125 W US0325125 W US 0325125W WO 2004014220 A2 WO2004014220 A2 WO 2004014220A2
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Definitions
- the present invention relates to a diagnostic method for the accurate detecting of small quantities of amniotic fluid in vagina, particular, the invention relates to using specifically selected monoclonal antibodies that specifically bind placental ⁇ i-rnicroglobulin. More specifically, the present invention relates to the selection of a pair of anti-PAMG-1 antibodies ("basic pair") providing sensitivity sufficient for the detection of the minimum background concentration of PAMG-1 in the vaginal secretion of pregnant women. Further, the present invention relates to a solid phase immunoassay system comprising PAMG-1 antibodies, in which a combination of two or more anti- PAMG-1 antibodies are immobilized on the solid phase support of the device to precisely set up a predefined threshold level of sensitivity.
- Premature rupture of the fetal membrane occurs in about 10% of pregnant women and when not treated promptly, it is the cause of about 10% of all perinatal deaths.
- the term PROM premature rupture of the fetal membranes
- PPROM preterm premature rupture of membranes. Approximately about 30-50%) of such premature ruptures occur before the 37th week of pregnancy, h such cases, definitive diagnosis of the rupture is extremely important since PROM is associated with a significant increase in the risk of an intrauterine infection and disturbance of development of the fetal lung system. Intrauterine penetration of such infections increases both maternal and perinatal morbidity and mortality by about ten percent.
- PROM is a dynamic entity, so the interval between membrane rupture and implementation of the diagnostic modality, the presence of "high” leaks, intermittent leakage, variations in the incidence of PROM relative to populations, and consideration of material that has the capability of interfering with test results are factors that when not addressed result in inaccurate reporting. These inaccuracies may lead to errors in interpreting studies which aim to reveal the best tool for the identification of PROM.
- the diagnosis of PROM has traditionally relied on the patient's report of fluid discharge from the vagina. Physical examination has the capability to diagnose unequivocally; however, there are times when the findings at examination are internally inconsistent or equivocal. This situation mandates the need for confirmatory diagnostic tests (Lockwood C. J.
- Nitrazine test shows sensitivity 70%, specificity 97%, accuracy 90%
- Rutanen, E.M., et al. "Measurement of Insulin-like Growth-Factor binding Protein-1 in Cervical/Vaginal Secretions: Comparison with the ROM Check Membrane Immunoassay in the Diagnosis of Ruptured Fetal Membranes", Clin. Chim. Ada., 1993, v.214, pp. 73-81.
- Rutanen, E.M., et al. developed later a chromatographic test using the upside- down-positioned chromatographic membrane (FI-84863; U.S. Patent 5,554,504).
- AFP and PRL alpha-fetoprotein
- AFP and PRL are present in amniotic fluid in high concentrations during the second trimester of pregnancy only.
- the amniotic/serum protein concentration ratio for both proteins is only about 3 to 4 at term.
- Another method based on the detection of fetal fibronectin in the vaginal secretions has also been found unsatisfactory. For instance, the presence of fetal fibronectin can take place even in the absence of the fetal membrane rupture (P.
- a rapid strip test (PROM test by OY Medix Biochemica, Finland, also named Amni-check, MAST Diagnostica, Germany), has been developed for detecting the presence of IGFBP- 1 in the vaginal secretions (Rutanen EM, Karkkainen TH, Lehtovirta J., Uotila JT, Hinkula MK, Hartikainen AL. "Evaluation of a rapid strip test for insulin-like growth factor binding protein-1 in the diagnosis of ruptured fetal membranes", Clin Chim Ada 1996 Sep 30; v.253(l-2), pp. 91-101). E.
- Rutanen reported that the detection limit of the test was set so that IGFBP-1 concentrations below 400 ng/ml in cervical secretion (below the 95 th percentile of serum IGFBP- 1 levels in pregnant women) should remain negative. However, in cases with bleeding, the test result should be interpreted with caution as blood straight from the placental bed may contain higher amounts of IGFBP-1 than blood from the cervical blood vessels.
- PROM-test had a sensitivity of 95.7% and a specificity of 93.1% among the patients with clinically confirmed diagnosis (women with obvious rupture of membranes or women with intact membranes). However, the sensitivity and specificity of PROM-test were only 70.8% and 88.2% respectively in the patients with suspected PROM.
- vaginal IGFBP- 1 in women with intact membranes and a high cutoff threshold of the test may harm its sensitivity and specificity and thus impact the test's accuracy in patients with equivocal diagnosis.
- the admixtures of blood serum and/or inflammatory exudate could also impact the accuracy of test (see data of E. Darj et S. Lyrenas, above).
- the author of this test did not study the issue. h attempting to avoid some of the above-mentioned drawbacks, two monoclonal antibodies were used against two binding sites for insulin-like growth factors to detect the unbound fraction of placental ⁇ microglobulin (U.S.
- IGFBP-1 insulin growth factor-1
- the background level of another protein, IGFBP-1 in the vaginal secretion of pregnant women, varies in a broad range from 0.5 to 90 ng/ml (see Rutanen' s studies).
- the second important point is the possibility of admixtures of inflammation exudates or blood serum containing detected substance in vaginal secretion. This can cause false positive results.
- Protein PAMG-1 was first described by D. Petrunin (Petrunin D. et al, Akusherstvo i Ginekologia, 1977, No. 1, p.
- IGFBP Insulin-like Growth Factor Binding Proteins
- the present invention employs a method of selection of a pair of monoclonal antibodies to provide sensitivity sufficient to detect a very low concentration of PAMG-1 in the vaginal secretion, and also involves selection of some other anti-PAMG-1 antibodies, which in combination with the two antibodies mentioned above, allowed to precisely set up a predefined threshold of sensitivity for the strip device. This, in turn, made it possible to minimize the frequency of false positive results of the test.
- the present invention started from the pioneer study D.
- the present invention relates to the method for detecting a small quantity of amniotic fluid in vaginal secretions during pregnancy.
- the present invention relates to the method for detecting PAMG-1 above the minimal background concentration of amniotic protein PAMG-1 in the vaginal secretion of pregnant women, which indicates the presence of amniotic fluid.
- the method for the detection of the PAMG-1 protein utilizes a pair of monoclonal antibodies specially selected to detect the minimum background concentration of PAMG-1 protein in vaginal secretion. This pair of antibodies has been used in combination with at least one additional anti-PAMG monoclonal antibody in order to precisely set up a given threshold of sensitivity of the test.
- the invention further contemplates use of a combination of PAMG-1 -capturing antibodies in one strip device to enable a more precise set up of the threshold of sensitivity in the method for detection of the amniotic protein PAMG-1 in the vaginal secretion.
- This approach provides greater control of sensitivity and dynamic range than use of a selected pair of antibodies alone.
- the most appropriate sensitivity threshold level of the method is found to be close to 5 ng/ml since the upper level of PAMG-1 in vaginal secretion, which may be caused by inflammation, does not exceed 3 ng/ml, and on the other hand, the regular background level of PAMG-1 in vaginal secretion of healthy pregnant women is around 0.2 ng/ml.
- the significant gap between background level and threshold concentration of the detected substance minimizes false negative and false positive results.
- the first step of recognizing of amniotic PAMG-1 takes place in the pad part of the strip device, where the specially selected and labeled antibody is located.
- the second step of the reaction takes place at the test region of dipstick device where the second antibody of the selected pair and preferably at least one additional anti-PAMG-1, antibody are immobilized.
- the method is preferably based ,on selection of the pair of monoclonal antibodies against placental c ⁇ -micro globulin (PAMG-1).
- PAMG-1 placental c ⁇ -micro globulin
- the goal of selection was, first, to measure a minimum background concentration of PAMG-1 in the vaginal secretion. Having this information, any analytical technique capable of detecting PAMG-1 above that threshold level can be employed to detect amniotic fluid in vaginal secretions. Based on this information, one can create a device based on the use of the same pair and additional antibodies so as to lower and accurately set up the threshold of sensitivity of the device and thereby minimize the likelihood of false negative and false positive results.
- the method comprises the contact of a sample containing PAMG-1 protein and the monoclonal antibody, the first one of the selected pair, which selectively detects PAMG-1. It further comprises the antibody that forms the antibody-PAMG-1 complex, and the step of detection of the antibody-PAMG- one complex by another labeled monoclonal antibody of the pair. It finally comprises the quantitative measurement of the low minimum background of PAMG-1 in vaginal secretion of pregnant women who do not have rupture of amniotic membranes. This method is often used in ELISA class tests.
- the device implements the contact of a sample containing PAMG-1 protein and a labeled monoclonal antibody, the first one of the selected pair, which selectively detects PAMG-1. It further comprises the antibody that forms an antibody-PAMG-1 complex, the lateral flow of this complex, and the step of detection of the antibody-PAMG-1 complex by another monoclonal antibody recognizing PAMG-1 whereby the sensitivity threshold of the device is set up around the range of 5-7 ng/ml using additional antibodies with a higher accuracy than the accuracy that can be attained using the pair of PAMG-1 -recognizing monoclonal antibodies.
- FIG. 1 is a schematic longitudinal sectional view of a device of the invention which may be used to detect the presence of PAMG-1 in order to diagnose the rupture of a fetal membrane.
- FIG. 2 is a planar view of the device of FIG. 1.
- This invention addresses the above-mentioned problems of accurately detecting amniotic fluid in vaginal secretions by detecting very low concentrations of placental ⁇ microglobulin in vaginal secretion.
- This approach proved advantageous due to a low background level (around 0.2 ng/ml in vaginal secretion of pregnant women) of PAMG-1 concentration.
- the crucial point of this invention was the selection of the monoclonal antibody to detect the protein at low concentration, which permits quantification of these values and in turn, enables any analytical technique to be used to detect the level of PAMG-1.
- the presence of PAMG-1 at low concentration in vaginal secretion could be expected since permeability of capillary wall for blood proteins depends on posttranslational modifications of proteins and their interaction with other molecules (Marmaro J.
- PAMG-1 molecules which underwent the posttranslational modifications, or established a non-covalent bond with another molecules, are those whose penetration into the vaginal secretion is minimal.
- concentration of such molecules in the vaginal secretion should be low, unless there is a breach in the amniotic sack.
- Heterogeneity of PAMG-1 molecules could also be the result of alternative splicing.
- Bell et al. presented data regarding two close, but different, proteins ⁇ PEG in amniotic fluid. AlpharPEG is close to PAMG-1.
- the low or high penetration of different molecules into vaginal secretion occurs due to the selective permeability of the capillary walls and selective secretory processes.
- a successful immunoassay required detecting the low background concentration of PAMG-1 molecules in vaginal secretion.
- PAMG-1 PAMG-1
- its low concentration in the vaginal secretion must be certain. This parameter is sufficient to set the sensitivity threshold at a low level, maintaining a significant gap between the threshold of the test and background level of PAMG-1 concentration in vaginal secretion. This choice of the optimum threshold allows for filtering out both the potential false negative and false positive results of the test.
- monoclonal antibodies (MAb) to placental alpha- 1 -micro globulin were studied based on their reaction in the system MAb-PAMG-1-conjugate of another MAb of the present invention (Example 4, Table 6).
- the highest titer has been found using specifically the pair M271 - M52.
- the pair MAb271-MAb52 and routine ELISA technique failed to detect any concentration of PAMG-1 in vaginal secretion.
- a high sensitivity ELISA technique was developed for the pair MAb271-MAb52 (Example 5, Table 7) and employed to measure low (picogram- range) concentrations of PAMG-1 in vaginal samples (Example 6, Table 8), and then in both cervical and vaginal secretions of pregnant women (Example 7, Table 9).
- the first layer was formed from high-specificity MAb M271.
- the horseradish peroxidase conjugate contained MAb M52, diluted in the buffer that did not contain any inhibiting agents.
- PAMG-1 normal concentration of PAMG-1 (8 cases) is localized around some stable level.
- the relative stability of PAMG-1 both in the vagina and in cervix may serve an indication of the stability of the parameters of the method and of the standardized way of collecting samples;
- - mean levels of the normal concentration of PAMG-1 in the cervical secretion is around 151 pg/ml, in the vaginal secretion it is around llO pg/ml;
- blood admixture is accompanied by an increase in the concentration of PAMG-1 in the cervix, which was observed at the level 290 pg/ml, in contrast to the normal concentration of 151 pg/ml;
- the PAMG-1 level sharply increases (by a factor of 10-50).
- the present invention thus relates in particular to a selected pair of monoclonal antibodies having binding affinity for PAMG-1, biological compositions including antibodies having binding affinity for PAMG-1, kits for detecting PAMG-1 using the antibodies of the present invention, and cell lines for producing antibodies of the present invention.
- the present invention also relates to devices and methods for detecting PAMG-1, as well as fetal membrane rapture, based on the presence of amniotic fluid in the vagina, as indicated by the presence of PAMG-1 in the vaginal secretion.
- the present invention arises in part from a study with a pair of monoclonal antibodies that allow the detection of the minimum background concentration of PAMG-1 in the vaginal secretion of pregnant women.
- the minimum background concentration of PAMG-1 in vaginal secretion and its high concentration in ammotic fluid allows, first of all, to set up the threshold of sensitivity of a device at a low level and to thereby detect very small quantities of amniotic fluid in vaginal secretion, and secondly, to position the threshold of sensitivity of the device in an optimal way, specifically between the typical level of the low minimum background concentration of PAMG-1 in the vaginal secretion of pregnant women without rupture of fetal membranes, and a high typical level of PAMG-1 in the amniotic fluid.
- An additional monoclonal antibody or antibodies against PAMG-1 allows the more accurate set-up of the threshold of sensitivity of the device at a predefined level e.g., for semi-quantitative analysis. Further, because the presence of amniotic fluid in vaginal secretion is indicative of a fetal membrane rapture, the detection of PAMG-1 in vaginal secretion can also be used to detect fetal membrane rupture. All this in combination allows the minimizing of false results of the test detecting PROM and PPROM.
- antibodies specific for PAMG-1 can be incorporated into compositions of matter, kits, devices and methods used for the detection of PAMG-1 and thereby the occurrence of a fetal membrane rapture based on the presence of PAMG-1 in the vaginal secretion.
- PAMG-1 is a protein that is present in the serum, amniotic fluid and vaginal secretion of pregnant women and in the serum of all people. PAMG-1 is present in the serum of non pregnant (0-60 ng/ml) and pregnant (5-120 ng/ml) women where the measured concentration depends on the pair of monoclonal antibodies that has been used for its detection (Example 1, tables 1, 2). It is known that the use of different pairs of antibodies against the same protein can yield a different measured concentration of that protein. Thus, in an analogous study by Diamandi A. et al (see Diamandi A.
- PP12 placental protein 12
- PAMG-1 relates to the family of IGFBP proteins (see U.S. Patent 5,968,758).
- PAMG-1 can be present in different isoforms, i.e., having undergone different post-translational modifications.
- Antibodies may have differential specificity for one isoform over another, and this can be used to advantage in the assays of the invention.
- the term "antibody” refers to any protein having a binding affinity as specified in this application, independent of the method used to obtain the protein.
- the protein may be a monoclonal antibody or fragment thereof, or any molecule having a binding specificity as specified in this application.
- PAMG-1 polypeptide separated from body fluids produced recombinantly or by chemical synthesis, and fragments or other derivatives or analogs thereof, including fusion proteins may be used as an immunogen to generate antibodies that recognize the PAMG-1 polypeptide.
- Such antibodies include but are not limited to polyclonal, monospecific, monoclonal, chimeric, single chain, Fab fragments, and an Fab expression library.
- the anti-PAMG-1 antibodies of the invention may be cross reactive, e.g., they may recognize PAMG-1 from different species. Polyclonal antibodies have greater likelihood of cross reactivity.
- an antibody of the invention may be specific for a single form of PAMG-1. Preferably, such an antibody is specific for human PAMG-1.
- PAMG-1 polypeptide or derivative or analog thereof Various procedures known in the art may be used for the production of polyclonal antibodies to PAMG-1 polypeptide or derivative or analog thereof.
- various host animals can be immunized by injection with the PAMG-1 polypeptide, or a derivative (e.g., fragment or fusion protein) thereof, including but not limited to rabbits, mice, rats, sheep, goats, etc.
- the PAMG-1 polypeptide or fragment thereof can be conjugated to an immunogenic carrier, e.g., bovine serum albumin (BSA) or keyhole limpet hemocyanin (KLH).
- BSA bovine serum albumin
- KLH keyhole limpet hemocyanin
- adjuvants maybe used to increase the immunological response, depending on the host species, including but not limited to Freund's (complete and incomplete), mineral gels such as aluminum hydroxide, surface active substances such as lysolecithin, pluronic polyols, polyanions, peptides, oil emulsions, keyhole limpet hemocyanins, dinitrophenol, and potentially useful human adjuvants such as BCG (bacille Calmette-Giierin) and Corynebacterium parvum.
- BCG Bacille Calmette-Giierin
- any technique that provides for the production of antibody molecules by continuous cell lines in culture maybe used. These include but are not limited to the hybridoma technique originally developed by Kohler and Milstein (Nature 1975, 256:495-497), as well as the trioma technique, the human B-cell hybridoma technique (Kozbor et al., Immunology Today 1983, 4:72; Cote et al, Proc. Natl. Aead. Sci. U.S.A.
- monoclonal antibodies can be produced in germ-free animals (International Patent Publication No. WO 89/12690, published 28 December 1989).
- techniques developed for the production of "chimeric antibodies" (Morrison et al., J. Bacteriol.
- Antibody fragments that contain the idiotype of the antibody molecule can be generated by known techniques.
- such fragments include but are not limited to: the F(ab )2 fragment which can be produced by pepsin digestion of the antibody molecule; the Fab fragments which can be generated by reducing the disulfide bridges of the F(ab )2 fragment, and the Fab fragments which can be generated by treating the antibody molecule with papain and a reducing agent.
- screening for the desired antibody can be accomplished by techniques known in the art, e.g., radioimmunoassay, ELISA (enzyme- linked immunosorbant assay), "sandwich” immunoassays, immunoradiometric assays, gel diffusion precipitin reactions, immunodiffusion assays, in situ immunoassays (using colloidal gold, enzyme or radioisotope labels, for example), western blots, precipitation reactions, agglutination assays (e.g., gel agglutination assays, hemagglutination assays), complement fixation assays, immunofluorescence assays, protein A assays, and immunoelectrophoresis assays, etc.
- radioimmunoassay e.g., ELISA (enzyme- linked immunosorbant assay), "sandwich” immunoassays, immunoradiometric assays, gel diffusion precipitin reactions, immunodiffusion assays, in situ immunoa
- antibody binding is detected by detecting a label on the primary antibody
- the primary antibody is detected by detecting binding of a secondary antibody or reagent to the primary antibody
- the secondary antibody is labeled.
- Many means are known in the art for detecting binding in an immunoassay and are within the scope of the present invention. For example, to select antibodies which recognize a specific epitope of an PAMG-1 polypeptide, one may assay generated hybridomas for a product which binds to an PAMG-1 polypeptide fragment containing such epitope. For selection of an antibody specific to an PAMG-1 polypeptide from a particular species of animal, one can select on the basis of positive binding with PAMG-1 polypeptide expressed by or isolated from cells of that species of animal.
- Hybridoma cell lines according to the present invention are produced by the following procedure. First, mice having spleen and lymph node B-cells are immunized with PAMG-1. Hybridomas are then produced to immortalize the B-cells. The B-cells may be spleen and/or lymph node B-cells. Those hybridomas, which produce a monoclonal antibody having a binding affinity for PAMG-1, are then identified in an ELISA: first layer: PAMG-1; second layer: hybridoma supernatant; and third layer: conjugate of rabbit anti-mouse antibodies labeled by horse radish peroxidase.
- hybridomas N52, N271, and N42 are then cultivated in vitro or in ascites and the monoclonal antibodies they produce are isolated, hi a specific embodiment, the antibodies are from hybridomas N52, N271, and N42 as deposited with the Russian National Collection of Industrial Microorganisms Depository with accession nos. VKPM H-92, VKPM H-93 and VKPM H-94, respectively.
- the present invention is also directed to a series of compositions that include two or more antibodies according to the present invention, h one embodiment, the composition includes a pair of antibodies and a detectable marker attached to one of the pairs of antibodies.
- detectable markers may be used, including, but not limited to, stained particles, enzymes, fluorescent dyes, and radioactive isotopes.
- a detectable marker is a gold stained particle having an average dimension in the range of 20 to 30 nm.
- Another example of a detectable marker is the horseradish peroxidase. For example, methods for attaching a detectable marker to an antibody are described in Methods In Enzymology, 1981, Vol. 73, pp.
- Suitable enzymes include, but are not limited to, alkaline phosphatase and horseradish peroxidase.
- markers or labels for use in the invention include colloidal gold, colored latex beads, magnetic beads, fluorescent labels (e.g., fluorescene isothiocyanate (FITC), phycoerythrin (PE), Texas red (TR), rhodamine, free or chelated lanthanide series salts, especially Eu3+, to name a few fluorophores), chemiluminescent molecules, radio- isotopes (1251, 32P, 35S, chelated Tc, etc.) or magnetic resonance imaging labels.
- fluorescent labels e.g., fluorescene isothiocyanate (FITC), phycoerythrin (PE), Texas red (TR), rhodamine, free or chelated lanthanide series salts, especially Eu3+, to name a few fluorophores
- chemiluminescent molecules chemiluminescent molecules
- radio- isotopes (1251, 32P, 35S, chelated Tc, etc.
- Other markers include fluor
- a marker can be an epitope, binding partner, or "handle" for interaction with another molecule, such as biotin-streptavidin; glutathione-GST; hexahistidine-nickel; etc.
- the invention also contemplates using secondary antibodies, which are themselves detectably labeled, as markers (e.g., in a situation where the anti-PAMG-1 antibody pair uses antibodies with Fc portions from two different animal species).
- the composition may ftirther include two or more monoclonal antibodies localized in the test region of the strip device of the invention.
- the present invention also relates to kits for detecting PAMG-1.
- the kit includes a pair of antibodies according to the present invention: one of them highly specific to PAMG-1.
- one or another antibody includes a detectable marker attached to an antibody, hi another variation, one or another antibody of a selected pair is attached to a solid support, hi this variation, the mobilizable antibody of the selected pair includes a detectable marker.
- the composition comprises three or more monoclonal antibodies, one of which is mobilizable and detectable, as this combination permits adjusting the threshold of sensitivity of an immunochromatographic assay.
- the highest binding affinity anti-PAMG-1 antibody is mobilizable and placed in the pad region of the device for initial sample contact.
- Another antibody is placed in the test region of the device.
- other monoclonal antibodies with high binding affinity for PAMG-1 can be prepared in different combinations to immobilize in the test region of the device to set up or tune a predefined threshold of sensitivity for the device of the invention. This can be done through routine experimentation, as shown in Example 11. Different compositions of antibodies establishes a threshold of signal detection for the device of the present invention at a predefined level.
- the present invention establishes that PAMG-1, particularly PAMG-1 present in amniotic fluid in much greater amounts than in normal vaginal fluid, is a useful analyte for detecting fetal membrane rapture that results in leakage of amniotic fluid into the vagina. In other words, it permits a diagnosis of premature rupture of membranes, i.e., the amniotic sac.
- the invention further establishes cut-offs for detecting PAMG-1 under normal conditions, various symptoms of vaginitis, and true membrane rupture. Having identified the analyte and the relative levels indicating membrane rapture, one of ordinary skill in the art can then employ, to full advantage, any analytical technique known for the detection of proteins to determine whether a condition of premature membrane rupture has occurred in a patient.
- Immunoassays constitute a preferred technique in accordance with the invention, and immunoassays are set forth in detail below. These assays have the advantage of specificity, accuracy, speed, and economy.
- the invention can also employ other methods for detecting and quantitating
- PAMG-1 although these methods may require expensive equipment and limit assays to laboratory setting.
- One such technique is mass spectrometry, e.g., using matrix-assisted laser-desorption (MALDI) time-of-flight (TOF) mass spectrometry (MS) with delayed extraction and a reflectron in the time-of-flight chamber.
- MALDI assays are performed on silicon arrays.
- An example of an array for MALDI is 200 ⁇ m circular gel pads at 350 ⁇ m centers, on oxidized silicon.
- a hydrophobic surface (repellent surface) between gelpads further provides a more focused matrix/protein spot for MALDI, thereby improving signal for quantitation.
- spots produced using the Packard Bioscience system can be less than 200 ⁇ m in diameter.
- the Piezo system can deliver about 300pL of MALDI matrix (e.g., DHB, sinapinic acid) to the exact position of the affinity capture agent-peptide spot to create a homogeneous peptide/matrix crystal.
- MALDI matrix e.g., DHB, sinapinic acid
- Desorption/Ionization Karas, et al. Ion Processes, 1987, v. 78, pp. 53-68 or Zenobi, et al. Mass Spectrom. Rev. 1998, v. 17, pp.
- MALDI-MS e.g., Perseptive Voyager
- An alternative technique for use in the invention is capillary electrophoresis chromatography, which can permit quantitation of an analyte present in a small amount of sample.
- biochemical techniques such as polyacrylamide gel electrophoresis, high performance liquid chromatography, and the like may be employed, alone or in combination, to detect and quantitate the amount of PAMG-1 in a sample.
- Various means known in the art for detecting immunospecific binding of an antibody to an antigen can be used to detect the binding in accordance with the present invention.
- An early method of detecting interaction between an antigen and an antibody involved in analysis of the complex is by precipitation in gels.
- a further method of detecting an analyte-detector antibody binding pair includes the use of radioiodinated detector antibodies or a radioiodinated protein which is reactive with IgG, such as Protein A.
- More current immunoassays utilize a double antibody method for detecting the presence of an analyte. These techniques are also reviewed in the above referenced volume of Methods in Enzymology. Therefore, according to one embodiment of the present invention, the presence of the individual markers are determined using a pair of antibodies for each of the markers to be detected.
- One of said pairs of antibodies is referred to herein as a "detector antibody” and the other of said pair of antibodies is referred to herein as a "capture antibody”.
- One embodiment of the present invention thus uses the double antibody sandwich method for detecting PAMG-1 in a sample of vaginal fluid, hi this method, the analyte is sandwiched between the detector antibody and the capture antibody, the capture antibody being irreversibly immobilized onto a solid support.
- the detector antibody would contain a detectable label, in order to identify the presence of the antibody-analyte sandwich and thus the presence of the analyte.
- solid supports include plates, tubes or beads of polystyrene, all of which are well known in the field of radioimmunoassay and enzyme immunoassay. More recently, a number of porous materials such as nylon, nitrocellulose, cellulose acetate, glass fibers and other porous polymers have been employed as solid supports.
- the device of the invention comprises means for conducting an immunochromatographic assay ("immunochromatographic assay device").
- immunochromatographic assay device comprises a solid phase means for conducting a liquid.
- solid phase means for conducting a liquid refers to a solid support that allows migration of a liquid therethrough, e.g., via capillary action.
- a typical product of this nature is a nitrocellulose membrane, which may be prepared by methods well known to those skilled in the art.
- Immunochromatographic assays using a membrane as a solid support in a dipstick or flow-through device are well established for use in the clinical laboratory and for alternative, i.e., non-laboratory, site testing.
- the usual presentation for an immunochromatographic assay device is a membrane (cellulosic or non-cellulosic) enclosed in a plastic holder.
- the plastic holder keeps the membrane in a suitable configuration in order to ensure correct functioning of the entire device.
- Litman et al. U.S. Pat. Nos.
- the immunochromatographic assay means includes a control to indicate that the assay has proceeded correctly.
- the control can be a specific binding reactant at a spot more distal from the sample application point on the solid phase support than the detection zone that will bind to labeled reagent in the presence or absence of analyte, thus indicating that the mobilizable receptor has migrated a sufficient distance with the liquid sample to give a meaningful result.
- Suitable labels for use in immunochromatographic assays include enzymes, fluorophores, chromophores, radioisotopes, dyes, colloidal gold, colloidal carbon, latex particles, and chemiluminescent agents.
- a control marker When a control marker is employed, the same or different labels may be used for the receptor and control marker.
- One embodiment of the present invention uses a flow-through type immunoassay device. Valkirs et al. (U.S. Pat. No. 4,632,901) discloses a device comprising antibody, specific to an antigen analyte, bound to a porous membrane or filter to which is added a liquid sample. As the liquid flows through the membrane, target analytes bind to the antibody.
- the addition of the sample is followed by the addition of a labeled antibody.
- the visual detection of the labeled antibody provides an indication of the presence of the target analyte in the sample.
- Another example of a flow-through device is disclosed by Kromer et al. (EP-A 0 229 359), which describes a reagent delivery system comprising a matrix saturated with a reagent or components thereof dispersed in a water soluble polymer for controlling the dissolution rate of the reagent for delivery to a reaction matrix positioned below the matrix.
- the solid phase support e.g., membrane, is impregnated with the reagents needed to perform the assay.
- An analyte detection zone is provided in which labeled analyte is bound and the results of the assay are read.
- Migration assay devices usually incorporate within them reagents that have been attached to colored labels such as colloidal gold or carbon, thereby permitting visible detection of the assay results without addition of further substances. See for example, Bernstein (U.S. Pat. No. 4,770,853), May et al. (WO 88/08534), and Ching et al. (EP-A 0299428). All of these known types of flow-through devices can be used according to the present invention.
- Direct labels are one example of labels that can be used in immunochromatographic assays according to the present invention.
- a direct label has been defined as an entity, which in its natural state, is readily visible, either to the naked eye, or with the aid of an optical filter and or applied stimulation, e.g. UN. light, to promote fluorescence.
- colored labels include metallic sol particles, for example, gold sol particles such as those described by Leuvering (U.S. Pat. No. 4,313,734); dye sol particles such as described by Gribnau et al. (U.S. Pat. No. 4,373,932) and May et al.
- the diagnostic device of the present invention comprises a membrane assembly having a detection section proximal to the point of introduction of the sample, and a capture section downstream from that position.
- the detector section contains antibodies (detector antibodies), which will react with any analytes of the present invention that are present in the sample.
- the detector antibodies are reversibly immobilized onto the membrane and will migrate with the sample, when in use.
- the detector antibodies are labeled, for example, with a radionuclide, an enzyme, a fluorescent moiety, luminescent moiety or a colored label such as those described in the prior art, and discussed above.
- a reactive label so that for example, the antibody would appear gold before capture of the antigen, and would change to purple upon capture.
- the capture section which, as stated, is downstream from the detector section, comprises capture antibodies, which are irreversibly immobilized onto the solid support, each antibody immobilized at a different position in the capture section.
- the antibodies and necessary reagents are immobilized onto the solid support using standard art recognized techniques, as discussed in the flow-through type immunoassay devices discussed previously, hi general, the antibodies absorbed onto the solid supports as a result of hydrophobic interactions between non-polar protein substructures and non-polar support matrix material.
- a particular advantage of the immunochromatographic assay technology of the present invention is that it overcomes the inability of these assays to provide quantitative data.
- the capture section can contain a mixture of immobilized antibodies specific for PAMG-1, such that a signal is only produced when the amount of PAMG-1 in the sample exceeds the desired detection threshold.
- the present invention contemplates use of homogeneous immunoassay formats.
- a competitive homogeneous method is found in U.S. Pat. No. 3,817,837 by Rubenstein and Ulhnan, which describes a technique in which ligand and enzyme-bound-ligand compete for antibody binding sites. Since binding of the antibody to the enzyme-bound-ligand alters its enzymatic activity, the concentration of ligand present can be estimated by measuring the rate at which such a mixture converts substrate to product.
- the detectable property of the label is inherently different depending on whether bound or unbound, hi its bound state, the label will have greater or lesser signal intensity.
- binding of antibody to the labeled ligand causes a decrease in signal intensity, e.g., when the label is an enzyme.
- Typical products in this category include the EMIT line of enzyme immunoassays from Syva Company and the TDX line of fluorescence polarization immunoassays from Abbott Diagnostics.
- a particular homogeneous assay could be prepared with the disposition of all of the analytes on beads, in which event the sample would be introduced and the beads thereafter spun down and detected.
- the Grenner '439 device comprises a diagnostic test element and a sample application unit comprising a fluid delivery element that is characterized as having a layer with a plurality of grooves for the delivery of the sample to the test element.
- Grenner '025 relates to a device that includes a sample introducing means such as a membrane adjacent to which is positioned a capillary containing a fixed reagent and a waste liquid reservoir. Release of the fixed reagent from the capillary completes the reaction after the sample is deposited, and excess liquid is retained by the waste reservoir, so that the device is self-contained.
- the automated assay systems generally include a series of workstations each of which performs one of the steps in the test procedure.
- the assay element may be transported from one workstation to the next by various means such as a carousel or movable rack to enable the test steps to be accomplished sequentially.
- the assay elements may also include reservoirs for storing reagents, mixing fluids, diluting samples, etc.
- the assay elements also include an opening to permit administration of a predetermined amount of a sample fluid, and if necessary, any other required reagent to a porous member.
- the sample element may also include a window to allow a signal obtained as a result of the process steps, typically a fluorescent or a colorimetric change in the reagents present on the porous member to be read, such as by a means of a spectroscopy or fluorimeter, which are included within the assay system.
- a signal obtained as a result of the process steps typically a fluorescent or a colorimetric change in the reagents present on the porous member to be read, such as by a means of a spectroscopy or fluorimeter, which are included within the assay system.
- a signal obtained as a result of the process steps typically a fluorescent or a colorimetric change in the reagents present on the porous member to be read, such as by a means of a spectroscopy or fluorimeter, which are included within the assay system.
- the automated assay instruments of PB Diagnostic Systems, Inc. are described in U.S. Pat. Nos. 5,051,237; 5,138,868; 5,
- an optical biosensor is a device that uses optical principles quantitatively to convert chemical or biochemical concentrations or activities of interest into electrical signals.
- These systems can be grouped into four major categories: reflection techniques; surface plasmon resonance; fiber optic techniques and integrated optic devices.
- Reflection techniques include ellipsometry, multiple integral reflection spectroscopy, and fluorescent capillary fill devices.
- Fiber-optic techniques include evanescent field fluorescence, optical fiber capillary tube, and fiber optic fluorescence sensors.
- Integrated optic devices include planer evanescent field fluorescence, input grading coupler immunosensor, Mach-Zehnder interferometer, Hartman interferometer and difference interferometer sensors. Holographic detection of binding reactions is accomplished detecting the presence of a holographic image that is generated at a predetermined image location when one reactant of a binding pair binds to an immobilized second reactant of the binding pair (see U.S. Pat. No. 5,352,582, issued Oct. 4, 1994 to Lichtenwalter et al.). Examples of optical immunosensors are described in general in a review article by G. A. Robins (Advances in Biosensors), Vol. 1, pp. 229-256, 1991. More specific description of these devices are found for example in U.S. Pat. Nos. 4,810,658; 4,978,503; and
- kits and materials of the present invention are capable of incorporation and practice within a variety of optical measurement systems.
- the kits and materials of the present invention may be practiced in an immunoassay format, such format itself is capable of embodiment in a variety of optoelectronic detection systems.
- a variety of optical immunosensor technologies are already known that may be facilitated and implemented in the practice of the present invention.
- devices and techniques such as reflection techniques, surface plasmon resonance, fiber optic waveguide techniques and integrated optic devices, may all be adopted and specifically configured to detect and display the results of the examination of a patient's biological sample in accordance with the present method.
- ellipsometry relies on the direction of a polarized light beam first against a reference surface (a standard) and thereafter against the sample surface, following which a comparison of the nature and extent of the resulting reflections can be made.
- the binding of analyte to receptor molecules will be measured as a chain the thickness of the surface relative to the reference surface.
- the ligand and its receptor may be covalently immobilized on the optical surface of a planar, fused-quartz waveguide after which a light beam may be internally reflected within the waveguide and would penetrate into a solution adjacent the waveguide, so that refractive differences would be capable of measurement as between the standard and the sample.
- a fluorescent label may be associated and measurements of fluorescence resultantly taken to determine the present extent of binding.
- An additional technique utilizes the technology known as fluorescent capillary fill device, hi this particular technology, two glass plates held apart by a gap of capillary dimension are utilized.
- Receptor molecules may be immobilized onto the base plate, which also acts as an optical waveguide.
- Competitive or sandwich assays utilizing FITC labeling may be performed and induced fluorescence is coupled into the waveguide with signal from bound as opposed to unbound sources. Such signal is discriminated by its angular divergence upon exiting the waveguide.
- SPR Surface Plasmon Resonance
- Resonance condition is dependent upon the optical characteristics of the metal film, its thickness, the refractive indices of the dielectric on either side of it, and the angle of incidence of light.
- Receptor molecules are bound to the top side of the metal film, and the light is directed at the bottom side of the film, such as through a prism substrate.
- the target analyte when binding to these receptors, will cause a shift in the resonance condition because of the change it produces in the local refractive index.
- Resonance is observed by a monitoring of the reflected light intensity as the angle of incidence at the light beam on the metal film surface varies. The change in resonance angle will directly correlate with the amount of analyte bound.
- the techniques involving fiber optic systems include the evanescent field fluorescence, hi this instance, the cladding is removed from the end of an optical fiber, thus producing a sensor element that evanescently interacts with the surrounding medium.
- Receptor molecules are bound to the exposed fiber surface, and direct assays may be performed utilizing the natural fluorescence of the receptor and conjugate proteins.
- Competitive or sandwich assays may be performed using FITC labeling to achieve greater sensitivity, hi operation, a light wave is coupled into the fiber, and a portion of the evanescently produced fluorescence is coupled back into the fiber and propagated back to a detector.
- a further technique utilizing optical fiber technology involves the optical fiber capillary tube, in which a bare fiber optic is enclosed within a cylindrical fill chamber, producing a sensor element that interacts evanescently with the portion of the fill volume immediately surrounding the fiber.
- Receptor molecules may be bound to the exposed fiber surface and sandwich or competitive displacement assays may be performed.
- a light wave would be coupled into the fiber, and a portion of the evanescently induced fluorescence would be coupled back into the fiber and propagated back to a detector.
- the signal from the target analyte versus the background sources is discriminated by its angular divergence upon exiting the fiber.
- Other fiber optic techniques such as fiber optic fluorescence may be adapted to the present invention utilizing certain of the same principles enunciated above.
- Photonic techniques such as interferometry include the disposition of a thin-film waveguide having, for example, two paths, on the first of which receptor molecules may be immobilized while the second is shielded to provide a reference channel.
- Laser light for example, may be coupled into the waveguide and split down the two paths, so that changes in the refractive index and thickness of the covering letter may be detected by the result of a phase shift in the beam, that will, in turn, correlate with the amount of analyte bound.
- a variation on this approach is identified in the Hartman interferometer, where a single path multimode thin film planar waveguide is prepared. Receptor molecules may be immobilized on this path, and light from a laser may be coupled into the waveguide so that two modes propagate down the path.
- the optics of multimode geometries are such that the higher order mode has a large evanescent field, providing a signal mechanism, and the lower order mode has practically no evanescent field, providing a reference mechanism. Binding with the target analyte will cause related changes in the refractive index and thickness of the covering layer over the path which will be detected by the evanescent field of the higher order mode, causing a phase shift in that mode. As the lower order or reference mode is blind to such changes, no phase shift will be experienced, and the measured difference between the signal and reference beams will be capable of correlation to determine the amount of analyte bound.
- PAMG-1 is detected in a sample through the contact of a sample containing PAMG-1 with an immunoassay system according to the present invention to form an antibody-PAMG-1 complex.
- the antibody-PAMG-1 complex is then detected, h one variation of this embodiment, the antibody includes a detectable marker, the step of detecting the antibody-PAMG-1 complex, which includes the detectable marker.
- PAMG-1 is detected in a sample by putting the sample in contact with an antibody which has a highly specific binding affinity for PAMG- 1 (like M271 , exemplified infra), thus forming the antibody M271-PAMG- 1 complex.
- the complex then comes into contact with an immobilized second antibody (e.g., like M52).
- the second antibody is immunologically distinct from and not cross- reactive to the first antibody, so that such antibodies can simultaneously bind to the PAMG-1 molecule.
- the immobilized antibody binds to the mobile antibody PAMG-1 complex to form the immobilized antibody PAMG-1 antibody complex.
- PAMG-1 is detected by detecting this heterotrimer complex.
- the antibody with high specificity for PAMG-1 is preferably used for the initial recognition of PAMG-1.
- a variation of the method includes putting the sample in contact with the first, labeled antibody prior to contact of the sample with the second, immobilized antibody, hi this variation, the labeled antibody serves to bind to PAMG-1 in the sample.
- Yet another embodiment of the method includes the following steps: adding a fluid sample containing PAMG-1 to a mobilizable, labeled antibody region of porous material which permits migration of antibodies and proteins therethrough, the antibody region including a mobilizable antibody which has a high specificity for PAMG-1 resulting in the attachment of the antibody to PAMG-1 to form an antibody PAMG-1 complex; migration of the complex to the test region containing a second antibody immobilized therein, which second antibody has a binding affinity for PAMG-1 resulting in the second antibody binding to the labeled antibody-PAMG-1 complex to form an immobilized complex; and detecting the immobilized complex in the test region.
- Yet another embodiment of the method is a standard sandwich assay, in which an unlabeled antibody is immobilized on any surface. Addition of fluid sample containing PAMG-1 results in binding of PAMG-1 by the immobilized antibody to form an antibody PAMG-1 complex. Addition of labeled antibody results in formation of an immobilized complex composed of immobilized antibody PAMG- 1-labeled antibody and detection of this complex.
- the antibodies may include a detectable marker or label, the step of detecting the antibody -PAMG-1 or PAMG-1- antibody complex including detection of the detectable marker or label.
- detectable markers examples include stained particles, enzymes, dyes and radioactive isotopes, hi a specific embodiment, the detectable marker is a stained particle of gold, e.g., having an average dimension between about 20 nm and 30 nm. h yet another embodiment, the detectable marker is horseradish peroxidase.
- FIGS. 1-2 A variety of devices are envisioned for detecting protein PAMG-1 in a sample.
- a specific embodiment of the device of the present invention for detecting PAMG-1 is described in FIGS. 1-2.
- Devices according to the present invention preferably can detect PAMG-1 in a sample where the concentration of PAMG-1 is between about 5 ng/ml and 50 ⁇ g/ml. It is also preferred that the devices have a detection threshold of about 5-7 ng/ml. The wider the gap is between the background concentration of PAMG-1 and the threshold of sensitivity of the detecting device, the lower the likelihood of false positive results, hi this section, different possible embodiments of devices according to the present invention, are embodied within the device illustrated in FIGS. 1, 2.
- this device can be designed to simply detect the presence of PAMG-1 in a sample of vaginal secretion.
- the term "about” as used herein means within an acceptable error range for the particular value as determined by one of ordinary skill in the art, which will depend in part on how the value is measured or determined, i.e., the limitations of the measurement system. For example, “about” can mean within 1 or more than 1 standard deviations, per the practice in the art. Alternatively, “about” can mean a range of up to 20%, preferably up to 10%, more preferably up to 5%, and more preferably still up to 1% of a given value.
- the term can mean within an order of magnitude, preferably within 5-fold, and more preferably within 2-fold, of a value.
- the device comprises a strip-like body composed of several sequentially interconnected elements. More specifically, part 12 of the device comprises a pad, which contains M271 antibody region 10, in which the M271 antibodies are labeled, e.g., by stained particles SP (not shown in the drawings). Pad 12 maybe made of a fiberglass tissue or any other material, which is porous and permits the migration of various particles and substances of a sample. Stained particles may comprise gold particles having an average dimension within the range of 20 to 30 nm.
- M271 antibody region also contains mouse IgG immunoglobulin labeled by the same stained particles.
- the labeled M271 antibodies and mouse IgG immunoglobulin are introduced into the band part 10 of pad 12 by impregnating pad 12 with a solution of labeled M271 antibodies and labeled mouse IgG.
- the solution of M271 antibodies and mouse IgG immunoglobulin may be introduced in nitrocellulose membrane 22 using drawing pen or microdrop forming device.
- Connected to one end of pad 12 in its longitudinal direction are [a] nitrocellulose membrane 22, which contains a test region 14 and a control region 16. Both the test region 14 and control region 16 are arranged transversely to the device over its entire width.
- Test region 14 is a band portion of nitrocellulose membrane 22.
- Test region 14 contains M52 antibodies attached to nitrocellulose membrane 22.
- Control region 16 contains anti-mouse anti immunoglobulin antibodies attached to nitrocellulose membrane 22. Control region 16 crosses the entire width of strip 22.
- a filter paper membrane 24 is connected to the end of nitrocellulose membrane 22, which is opposite to the end of mtrocellulose membrane 22 comiected to pad 12 .
- a filter paper membrane 24 is connected to the end of nitrocellulose strip 22 in its longitudinal direction.
- the surface of the device is coated with special protective films 28 and 30, e.g., thin adhesive tapes specially designed for strip devices. Arrows 18 are drawn on the surface of film 28 in order to show the sample application end of pad 12.
- Pad 12, nitrocellulose membrane 22 and filter paper strip 24 are attached to an adhesive rigid plastic base 26.
- the device includes an M271 antibody pad region 10 formed of a porous sample application matrix that permits migration of antibodies and proteins therethrough.
- the M271 antibody region 10 includes the M271 antibody, which is capable of highly specific binding to PAMG-1. Introduction of fluid sample containing PAMG-1 into M271 antibody region results in the attachment of the M271 antibody to PAMG-1 to form the antibody M271-PAMG-1 complex.
- the device also includes a test region 14 in fluid connection with M271 antibody region 10 formed of a porous material which permits migration of antibodies r and proteins therethrough. Test region 14 includes the M52 antibody immobilized in test region 14 which is also capable of binding to PAMG-1.
- the M52 antibody is immunologically distinct from the M271 antibody such that the M271 and M52 antibodies can simultaneously bind to PAMG-1.
- Introduction of a fluid sample to the M271 antibody region 10 results in the migration of the antibody M271-P AMG- 1 complex into the test region 14 where the antibody M271-PAMG-1 complex binds to the M52 antibody and is immobilized in the test region by the M52 antibody.
- the device detects PAMG-1 in a sample based on the presence of the M52 antibody immobilized in test region 14.
- both antibodies are antibodies according to the present invention. The procedure of selection of the pair of antibodies described above can be reproduced by any one experienced in the art.
- PAMG-1 forms an antibody M271-PAMG-1-M52 antibody complex which is immobilized in the test region 14.
- the presence of the M52 antibody immobilized in the test region 14 is indicative of the presence of PAMG-1 in the sample.
- the M271 antibody is attached to a detectable marker wliich is used to detect PAMG-1 immobilized in the test region 14.
- detectable markers include, but are not limited to, stained particles, enzymes, dyes, fluorescent dyes, and radioactive isotopes, h one embodiment, the detectable marker is gold particles having an average dimension between about 20- 30 nm.
- the M271 antibody is a labeled antibody in a freeze-dried state.
- the device ftirther includes test region, which contains the M52 antibody. The pad region and test region are in fluid connection.
- the device has a strip-like body with proximal and distal ends.
- the M271 antibody region 10 of the strip-like body is made of a material which permits the migration of antibodies and proteins therethrough.
- the M271 antibody region 10 of the strip-like body includes the M271 antibody, which has a highly specific binding affinity for PAMG-1, introduction to the M271 antibody pad region of a fluid sample containing PAMG- 1 , which results in the attachment of the M271 antibody to PAMG- 1 to form the antibody M271-PAMG-1 complex.
- the strip-like body also includes a test region 14, which is proximal to the M271 antibody region 10 and is in fluid connection with the M271 antibody region 10.
- the test region 14 is formed of a material which permits migration of antibodies and proteins therethrough.
- the test region 14 includes the M52 antibody immobilized in the test region 14, which has a binding affinity for PAMG-1, the introduction of the fluid sample to the M271 antibody region 10 resulting in the migration of the antibody M271-PAMG- 1 complex to the test region 14 where the antibody M271-PAMG-1 complex binds to the M52 antibody and is immobilized in test region 14 by the M52 antibody.
- the test region also includes M42 antibody and M52 antibody immobilized in the test region 14.
- the non-labeled M52 and M42 antibodies in combination allow fine-tuning of the sensitivity threshold of the strip device of the present invention (Example 11).
- the device detects PAMG-1 in a sample based on the immobilization of the complex of labeled antibody M271-PAMG-1 in the test region 14.
- the device of the invention includes one standard control region 16 (FIGS 1-2). This control region serves to confirm the proper operation of the device. It should be noted, however, that any alternative control-region designs may also be used with the device of the present invention.
- the device with one control region includes the M271 antibody region 10 formed of a material which permits migration of antibodies and proteins therethrough, the M271 antibody region 10 including a labeled M271 antibody that is not immobilized therein and has a high specificity for PAMG-1, introduction to the M271 antibody pad region 10 of a fluid sample containing PAMG-1 resulting in the M271 antibody binding to PAMG- 1 to form a antibody M271-PAMG-1 complex.
- the device also includes a test region 14 in fluid connection with M271 antibody region 10 which is formed of a material which permits migration of antibodies and proteins therethrough.
- the test region 14 also includes the M52 antibody immobilized in the test region 14 which has a binding affinity for PAMG-1.
- the M52 antibody is immunologically distinct from the M271 antibody such that the M271 and M52 antibodies can simultaneously bind to PAMG-1.
- Introduction of the fluid sample to the M271 antibody region 10 results in the migration of the antibody M271-PAMG-1 complex into the test region 14 where the antibody M271-PAMG-1 complex binds to the M52 antibody and is immobilized in test region 14 by the M52 antibody.
- the device detects PAMG-1 in a sample based on the immobilization of the labeled M271 antibody in the test region 14. When a low concentration of PAMG-1 is present in the sample, at least some of the labeled M271 antibodies migrates from the M271 antibody region 10 through the test region 14 to the control region 16.
- Anti-mouse anti-immunoglobulin antibodies are immobilized in the control region 16.
- Anti-immunoglobulin antibodies bind labeled M271 antibodies that stain the control region. If a high concentration of PAMG-1 is present in the sample, then only a low quantity of labeled M271 antibodies can approach the control region 16 and coloration of the control region may be too weak to become visible to the naked human eye.
- labeled mouse IgG immunoglobulin was added into M271 antibody region 10. This immunoglobulin does not bind PAMG-1 and migrates freely through M52 antibody test region 14 to the control region 16 where it is bound by anti-mouse antiglobulin antibodies and stains control region 16. The control region confirms the proper functioning of the device regardless of the concentration of PAMG-1 in the sample.
- Yet another component of device of the present invention is a porous material that is in tight porous connection with material of test region.
- This part of device of the invention works as a pump that helps to move liquids, proteins and antibodies therethrough.
- detectable markers which may be used for the labeling of mouse antibodies and IgG immunoglobulin include, but are not limited to stained particles, enzymes, dyes, and radioactive isotopes, h one embodiment, the detectable marker is a fluorescent dye. hi yet another embodiment, the detectable markers are stained particles.
- the M271 antibody, wliich is a labeled antibody and the labeled mouse immunoglobulin IgG are in a freeze-dried state.
- the materials used in the various regions of the above-described device may be any combination of materials that permit the migration of antibodies and proteins therethrough.
- suitable materials include but are not limited to fiberglass, porous plastic, nitrocellulose, and filter paper.
- the parts of device can be positioned in any functional combinations provided that in any embodiment of the device of this invention there is the selected pair of antibodies that detects a minimum background concentration of PAMG-1 in the vaginal secretion of pregnant women.
- the device of this patent may optionally include a protective film covering at least a portion of the device. It can be transparent or not transparent and can have necessary trademark, informational marks/signs or arrows on its surface.
- PAMG-1 exists in amniotic fluid at a concentration about at least 100 times greater than in the serum of pregnant women and at least 3000 greater than in vaginal secretion of pregnant women in the absence of fetal membranes rapture.
- a small amount of amniotic liquid about 1/100 of one drop per 1 ml of vaginal secretion
- PAMG-1 is present in this vaginal secretion sample to indicate that fetal membrane rupture has taken place.
- the insignificant admixture of blood serum to the sample (10-15%) does not affect the results produced by the devices and methods of the present invention.
- the detection of PAMG-1 in vaginal secretion can also be used to detect fetal membrane rapture.
- the method according to the present invention for detecting PAMG-1 in amniotic fluid is highly sensitive. For example, concentration of 0.05 ng/ml PAMG-1 can be detected (Examples 6, 7). Because the maximum concentration of PAMG-1 in serum is about 25 ng/ml, as compared to a minimum concentration of about 1680 ng/m in amniotic fluid, and because the background concentration of PAMG-1 in vaginal secretion is very low, about 0.2 ng/ml, a lower threshold level for PAMG-1 can be used in the method of the present invention for detecting the occurrence of amniotic fluid in the vagina. By using a lower detection threshold in the case of the present invention, most false results are avoided.
- the devices and methods of the present invention are designed to avoid producing false results through the use of a pair of antibodies that is highly sensitive and specific to PAMG-1. Besides, the threshold of sensitivity of the device of the present invention may be accurately set up at the predefined level that is close to 5-7 ng/ml.
- the devices and methods of the present invention are not influenced by the presence of vaginitis or other variables, which had a negative impact on the accuracy of prior methods for detecting fetal membrane raptures.
- the maximum concentration of PAMG-1 in inflammation exudate is 3 ng/ml (Example 8, Tables 10, 11).
- the same concentration of PAMG-1 may occur if blood serum admixture to vaginal secretion does not exceed 10-15%.
- a large ratio of concentrations seram-to- amniotic PAMG-1 makes the devices and methods of the present invention significantly less likely to produce false positive results due to the presence of blood serum in vaginal secretions, even with a low PAMG-1 -detection threshold.
- the devices and methods can be adapted to be used easily in a rapid and convenient manner, thereby making it possible for the devices and methods to be used in outpatient conditions.
- the method can be incorporated into an easy-to-use device that can be operated by a patient with little or no prior experience with the device. No special timing, dilution or matching of the sample concentrations prior to measurement is required in order to use the device. This makes the method and device highly reliable and not very susceptible to operator error.
- the method can also be designed to enable a simple yes/no determination of the presence of PAMG-1 in a sample and the presence of amniotic fluid in the vagina.
- the present invention provides methods and devices for detecting a rapture in a fetal membranes based on the presence of PAMG-1 in the vaginal secretion of a pregnant woman. Consequently the method of the present invention for detecting fetal membrane raptures simply includes the step of detecting PAMG-1 in the vaginal secretion the presence of PAMG-1 in the vaginal secretion indicating the occurrence of a fetal membrane rupture.
- the key part of the present invention is step-by-step selection of the pair of antibodies detecting very low background concentration of protein PAMG-1 in the vaginal secretion of pregnant women.
- PAMG-1 molecules which underwent the posttranslational modifications, or established a non-covalent bond with another molecules, should be some whose penetration into the vaginal secretion is minimal.
- the concenfration of such molecules in the vaginal secretion should be low.
- the low or high penetration of different molecules is due to the selective permeability of the capillary walls and selective secretory processes. Since it is known that the presence of amniotic fluid in the vaginal secretion of pregnant women is indicative of a fetal membrane rupture, the detection of PAMG-1 in the vaginal secretion can also be used to detect the presence of a fetal membrane rapture.
- Examples of methods and devices for detecting PAMG-1 in vaginal secretion include the methods and device described herein in more detail.
- the methods ftirther include the step of detecting a fetal membrane rupture based on the detection of PAMG-1 in the sample of vaginal secretion are also described herein in more detail.
- the methods and devices according to the present invention for detecting fetal membrane ruptures are highly specific, sensitive, and accurate. Sensitivity and accuracy are achieved by means of a wide gap between the low background concentration of PAMG-1 in the vaginal secretion of pregnant women and a much higher preset threshold of sensitivity of the device of the present invention, the threshold in turn being lower than the typical concentration of PAMG-1 in vaginal secretion at the time of a rupture of the fetal membrane, which creates a leakage of the amniotic fluid into vagina.
- the accurate set up of the threshold is in turn achieved by using at least one or more additional antibodies in test region 14 against PAMG-1 to set up precisely the predefined threshold of sensitivity of the device of the present invention (Example 9).
- the methods and devices of the present invention are designed to avoid producing false negative and false positive results through the use of a highly specific pair of monoclonal antibodies M271 and M52 and at least one additional antibody M42.
- the accuracy of methods and devices is not adversely affected by the presence of vaginal infections or certain other variables which have reduced the accuracy of the methods of the Prior Art for detecting fetal membrane rupture.
- the preferred device and methods of the present invention for detecting PAMG-1 in the vaginal secretion of pregnant women are also designed to be easy, convenient and quick to use, thereby making it possible to use the device of the present patent on an outpatient basis.
- the methods can be incorporated into an easy-to-use device which can be operated by a patient with little or no prior experience with the device. No special timing, dilution or matching of the sample concentrations prior to measurement is required in order to use the device.
- the results of clinical trials of the device of the invention are presented in Example 10.
- the measurement of the concentration of PAMG-1 in vaginal secretion at vaginitis is presented in Example 8. One can see from Example 8 that the maximum observed concentration of PAMG-1 in inflammation exudate is close to 3 ng/ml.
- Example 1 Concentration of PAMG-1 In Blood and Amniotic Fluid The PAMG-1 concentration was measured in the blood serum of non-pregnant women, pregnant women (37-40 weeks of gestation), and in amniotic fluid (39-40 weeks of gestation) by ELISA using monoclonal antibody pairs generated as described in Example 3.
- Antibodies Ml, M271, M152 and M392 were sorbed to polystyrene in 0.05M carbonate-bicarbonate buffer at pH 9.5 for 18 hours at 6°C (100 ⁇ l of antibody solution in each well). Non-specific sorption to the polystyrene was removed with a 1% solution of bovine serum albumin (BSA) in phosphate buffer saline (PBS) at pH 7.0, 200 ⁇ l in each well, incubated for one hour at 37°C.
- BSA bovine serum albumin
- PBS phosphate buffer saline
- PAMG-1 antigen was added to each well at concentrations of 50, 25, 12, 6, 3, 15, and 0.7 ng/ml.
- the samples of blood serum or amniotic fluid were diluted in a buffer of 0.01% BSA and 0.05% Twin 20 in PBS.
- the diluted samples were added to the wells and the wells were incubated for one hour at 37°C.
- the reaction was developed by the solution of orthophenylenediamine in 0.05M citrate-phosphate buffer (pH 4.7), incubated for 20 minutes at 37°C.
- Optical density was read at the wavelength 492 nm.
- a concentration of antibodies in the first layer and a concentration of conjugate were sought that resulted in the standard optical density curve for PAMG-1 with a maximum slope about 45 degrees (an increase by one optical unit corresponds to an increase of PAMG-1 concentration in the sample of 1 ng/ml), the upper limit (for the PAMG-1 concentration 50 ng/ml) of 1.5 optical units and zero concentration point not to exceed 0.1 optical units.
- the samples for investigation serum, amniotic fluid, vaginal and cervical secretion
- PAMG-1 was separated from the amniotic fluid at 16 to 25 weeks of gestation.
- the fluid was obtained from women whose pregnancy was terminated due to medical considerations.
- Hybridoma Experiment 1. Lymphocytes from popliteal lymph nodes of 5 BALB/c mice were used. Mice were immunized by five injections of PAMG-1 in foot pads. Each injection consisted of 100 ⁇ g of PAMG-1 and Freund's Complete Adjuvant in a 1 :1 ratio. After the cell fusion, the cells were seeded in 1152 wells. Total of 363 primary hybridomas were tested, 38 of them were PAMG-1 -positive.
- mice were immunized five times by intraperitoneal injection of 100 ⁇ g of PAMG-1. Each injection consisted of PAMG-1 and Freund's Complete Adjuvant in a 1:1 ratio. 1344 wells were used and 562 hybridomas were tested. Of these, 45 turned out PAMG-1 -positive, and 19 were not cross-reactive to the other proteins, e.g. PAMG-1 -specific. Not cross-reactive hybridomas were cloned twice and 6 clones that proved to be most stable and intensive producers of monoclonal antibodies M122, Ml 52, M211, M271, M371 and M392 were selected for further use.
- Antibodies M271 and M52 are produced by hybridoma cell lines M271 and M52 respectively.
- Table 5 reports the results for production of hybridomas from two trials.
- Example 4 Selection of the pair of the monoclonal antibodies detecting a minimum concentration of PAMG-1 in vaginal secretion of pregnant women.
- the antibodies listed in Table 6 below were added to the wells in serial dilutions starting from 3 mg/ml. The plates were then incubated for one hour at 37°C. An antibody conjugate of rabbit anti-mouse anti-IgG antibodies labeled by horseradish peroxidase was added to the wells. The reaction was developed by the solution of orthophenylenediamine in 0.05M citrate-phosphate buffer (pH 4.7), incubated for 20 minutes at 37°C. The monoclonal antibody titer was quantitated. Table 6
- Concentrations of monoclonal antibodies shown in Table 6 are the minimum concentrations at which the antibodies bind PAMG-1, provided concentration of PAMG- 1 in the solution is 1 ⁇ g/ml. The lower the concentration is, the higher an antibody's ability to detect minimal concentrations of PAMG-1.
- Monoclonal antibodies M271 and M52 were chosen to develop a high sensitivity ELISA for PAMG-1. The monoclonal antibody M271 did not show cross-reactivity in ELISA with the following individual proteins of the amniotic fluid: fertility alpha-2-micro globulin; human chorionic gonadotropin; human placental lactogen; trophoblastic beta-1- glycoprotein; alpha fetoprotein; human serum albumin.
- PAMG-1 could not be detected in vaginal secretion using standard ELISA and the M271-M52 antibody pair. To permit detection, the sensitivity of the ELISA was increased by decreasing the concentration of PAMG-1 required for detection to 0.05 ng/ml.
- 3rd layer conjugate M52 on the buffer at dilution 1/1000. The increase in sensitivity was obtained by varying the 1st and 3rd layers. In contrast to the high-sensitivity system, in the regular system with sensitivity 1 ng/ml the 1st layer was formed with concentration of M271 of 10 to 20 ⁇ g/ml, and dilution of the conjugate (M52 labeled with horseradish peroxidase) was 1/40,000.
- Concentration of PAMG-1 (ng/ml) in the vaginal secretion of pregnant women. Measurements are conducted using different pairs of monoclonal antibodies against PAMG-1 (29-41 weeks of gestation).
- each antibody was labeled with horse radish peroxidase.
- non-labeled antibodies at a concentration of 10 ⁇ g/ml were introduced in the wells of the plates.
- PAMG-1 at concentrations of 50, 100, 200, 400, 800, 1600, 3200 pg/ml were introduced for a second layer on the plastic.
- the conjugate of one of the other antibodies was introduced into each well of the plate.
- the following antibodies that work in pairs were selected (shown here as antibody-conjugate): M1-M91; M271-M52; M152-M91; M392-M371.
- Example 7 PAMG-1 in the Vaginal and Cervical Secretions of Pregnant Women
- Concentration of PAMG-1 picogram per milliliter (pg/ml), in the cervical and vaginal secretion of pregnant women. Normal gestation in the table below indicates the absence of any diagnosed deviations from normal course of gestation.
- PAMG-1 concentration was measured by highly sensitive ELISA using the M271-M52 antibody pair.
- Example 8 PAMG-1 in the Vaginal Secretions of Pregnant Women With Vaginitis
- Concentration of placental alpha-1 -micro globulin in the vaginal secretion of pregnant women with vaginitis Measurements were made using a non-highly sensitive ELISA.
- M52 MAb solutions were prepared in concentrations 1, 1/2, 1/4, 1/8, 1/16 and 1/32 mg/ml. Each solution was placed into one strip device. A mixture of the three MAb (M52, M271, M42) was also diluted to the concentrations 1, 1/2, 1/4, 1/8, 1/16 and 1/32 of the original and each diluted solution was introduced in a separate strip device. Then, PAMG-1 containing solution in concentration 50 ng/ml was added to each of the 12 strip devices. The solution of pure M52 antibody made the colored band in the test region visible at a concentration of 1/8, and in the MAb mixture the colored band became visible at a concentration of 1/2. Therefore, the mixture of MAb inhibits the attachment of PAMG-1 molecules, thereby adjusting the visibility of the band.
- Monoclonal antibodies at concentrations: M52: 0.8 mg/ml, M271: 0.1 mg/ml, and M42: 0.1 mg/ml were placed into the test region of many strip devices. Then, PAMG-1 in one of a broad range of concentrations, from 12800 ng/ml to 7 ng/ml, and at 1 ng/ml was added to the test region of each of the strip devices of the present invention.
- the test band could be seen by a human eye in the range of PAMG-1 concentrations from 12800 ng/ml to 7 ng/ml, and it could not be seen at the concentration of 1 ng/ml.
- test strip when pure M52 solution at the same concentration was used, the test strip could be seen in the entire range of PAMG-1 concentrations, including 1 ng/ml, although the intensity at 1 ng/ml was low. This strongly increased the likelihood of false positive result in patients with certain medical conditions such as inflammation.
- Adjustment of the sensitivity of strip device of the present invention with a combination of two antibodies in test region In the first investigation, only M52 antibodies (in a concentration of 0.4 mg/ml) were introduced into the test region. In the second investigation, M52 antibodies (in a concentration of 0.4 mg/ml) and M271 antibodies (in a concentration of 0.4 mg/ml) were introduced into the test region. M271 antibody conjugated with gold particles was introduced into the pad region in a concentration chosen so that the optical density was ten at the wavelength of 510 nm. This conjugate was introduced into the pad in a solution of 10% saccharose and 2% casein. PAMG-1 was titered to concentrations of 20, 10, 5, and 1 ng/ml.
- the numbers are relative optical density indices measured by the Sigma Scan program on a scanner.
- M271 antibodies are in the pad; a combination M271+M52 is in the test region. "+” indicates that the test strip is visible (colored enough to be detected by a human eye), "-” indicates that the test band cannot be detected by a human eye.
- the sensitivity of the test changed from 5 ng/ml in the first investigation to 20ng/ml in the second investigation.
- MAb M271 added to the test region, fourfold inhibition of the sensitivity was obtained.
- M52 antibodies at a concentration of 0.8 mg/ml
- M271 antibodies 0.7 mg/ml
- M42 antibodies 0.8 mg/ml
- the mixture of antibodies for the test region was prepared as follows: 14 ⁇ l (microliter) of M52 antibody solution, at concentration 8.6 mg/ml, was mixed with 7 ⁇ l of M42 solution, at concentration 13.9 mg/ml, and with 3 ⁇ l of M271 solution, at concentration 10.9 mg/ml. Then the buffer was added to the total volume of 150 ⁇ l and the solution was introduced into the strip device. hi the table below, the relative optical densities are shown.
- the slope (gradient) of the optical density curve differed between the first and second investigations.
- the colored line on the strip in the second investigation was brighter than in the first investigation.
- the colored line on the strip was visible in the first investigation but invisible in the second investigation.
- STUDY PROTOCOL Patients were evaluated by "Clinical assessmenf'-confrol and by the device of the present Invention.
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Priority Applications (21)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
AU2003259751A AU2003259751C1 (en) | 2002-08-13 | 2003-08-12 | Devices and methods for detecting amniotic fluid in vaginal secretions |
CA2533915A CA2533915C (en) | 2002-08-13 | 2003-08-12 | Devices and methods for detecting amniotic fluid in vaginal secretions |
DK03785187.0T DK1535068T3 (en) | 2002-08-13 | 2003-08-12 | Devices and methods for the detection of amniotic fluid in vaginal secretions |
EP03785187A EP1535068B1 (en) | 2002-08-13 | 2003-08-12 | Devices and methods for detecting amniotic fluid in vaginal secretions |
CN038241137A CN1697972B (en) | 2002-08-13 | 2003-08-12 | Device and method for detecting amniotic fluid in vaginal secretion |
KR1020057002524A KR101056150B1 (en) | 2002-08-13 | 2003-08-12 | Apparatus and method for detecting amniotic fluid in vaginal discharge |
SI200331802T SI1535068T1 (en) | 2002-08-13 | 2003-08-12 | Devices and methods for detecting amniotic fluid in vaginal secretions |
BRPI0313739A BRPI0313739B8 (en) | 2002-08-13 | 2003-08-12 | method for detecting amniotic fluid infiltration in vaginal secretions and device for performing a detection method |
JP2004528036A JP4625696B2 (en) | 2002-08-13 | 2003-08-12 | Apparatus and method for detecting amniotic fluid in vaginal secretions |
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AT03785187T ATE465410T1 (en) | 2002-08-13 | 2003-08-12 | DEVICES AND METHODS FOR DETECTING AMBIENT FLUID IN VAGINAL SECRETIONS |
EA200500356A EA008194B1 (en) | 2002-08-13 | 2003-08-12 | Methods for detecting amniotic fluid in vaginal secretions and devices therefor |
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DE60332248T DE60332248D1 (en) | 2002-08-13 | 2003-08-12 | DEVICES AND METHOD FOR DETECTING FRUIT WATER IN VAGINAL SECRETS |
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US13/675,613 US9568479B2 (en) | 2002-08-13 | 2012-11-13 | Devices and methods for detecting amniotic fluid in vaginal secretions |
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US15/283,027 US20170023582A1 (en) | 2002-08-13 | 2016-09-30 | Devices And Methods For Detecting Amniotic Fluid In Vaginal Secretions |
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US11353464B2 (en) | 2013-01-02 | 2022-06-07 | Qiagen Sciences, Llc | Methods for predicting time-to-delivery in pregnant women |
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