Chemistry: analytical and immunological testing – Composition for standardization – calibration – simulation,...
Reexamination Certificate
1997-10-14
2002-11-19
Nguyen, Bao-Thuy L. (Department: 1641)
Chemistry: analytical and immunological testing
Composition for standardization, calibration, simulation,...
C435S007100, C435S070210, C435S242000, C435S965000, C435S967000, C435S972000, C436S518000, C436S531000, C436S811000, C436S815000, C436S015000, C436S018000, C436S011000, C436S012000, C436S013000, C436S016000, C436S017000, C530S391100, C530S391500, C530S391700, C530S807000
Reexamination Certificate
active
06482648
ABSTRACT:
BACKGROUND OF THE INVENTION
Immunoassays are frequently used for the detection of proteins in serum or urine samples for medical/diagnostic purposes due to their particularly high specificity and sensitivity. For such immunoassays not only are one or two specific antibodies required but there is also needed a calibrator which is used as a reference standard for quantifying the patient samples. The storage of the calibrators for several months to two years at 4° C. is sometimes necessary for automated assays in large analytical laboratories. Depending on the analyte in question, these demands on the stability of the calibrator formulation can present problems, if for example, its solubility under physiological salt and pH conditions is not guaranteed. Examples which may be mentioned in this regard are troponin I and troponin T, which are only sufficiently stable and soluble in denaturing solutions (6 M urea, 0.01 M of dithiothreitol). It is however not possible to carry out an immunoassay using this denaturing formulation since denaturing conditions would affect the antibodies by modifying their secondary structure, so that they could not bind the troponin analyte. Other factors in the case of Troponin could be its tendency to stick to surfaces such as glass as well as possible chemical instability thereby complicating the preparation of stable calibrators.
It is known that proteins are relatively unstable in solution and that reagents containing them are frequently sold in lyophilised form together with a solvent of a suitable composition in which they are dissolved prior to their application by the user. If the solutions obtained in this manner are stored at 4° C. they can be used for several days even if a certain change in the concentration of the reagent is observed in the daily detection process. Thus, if the reference solutions obtained from the lyophilised material are to be stored over longer periods they are generally frozen in a standard dosage form as is recommended in the case of troponin I and troponin T.
SUMMARY OF THE INVENTION
The present invention relates to a calibrator with very high stability at 4° C. and higher temperatures for use in immunoassays. The calibrator material comprises a carefully produced preparation of cardiac muscle in which troponin is retained in its native form.
The cardiac muscle preparation can also be used as a control which can be integrated into a laboratory's quality control scheme. Controls are not different from calibrators in the way they are made with the possible exception that their stability requirements are less stringent. There is, however, a difference in how they are used since calibrators are used to set up an assay while controls are run on a daily basis to ensure that the assay continues to perform adequately. The following description emphasizes the use of the heart muscle homogenate as a calibrator, but it is to be understood that the description is also applicable for the preparation of heart muscle, homogenates which are to be used as controls.
DESCRIPTION OF THE INVENTION
Standard methods for isolating and purifying troponin use organic solvents and/or high salt concentrations. While the examples herein involve troponin I, the procedures disclosed are equally applicable to tropinin C and T as well as several other molecules present in heart tissue which are indicators of cardiac muscle damage.
The new method consists in homogeneously comminuting fresh mammalian cardiac muscle, which can be stored in a frozen state with a physiological buffer solution. Human or bovine heart tissue is preferred. Other mammalian heart tissue can also be used provided that it contains amino acid sequences which are similar to those present in the human and bovine material. Suitable homogenising media are buffer solutions with pH values in the neutral, weakly acidic or weakly alkaline range preferably about (pH 5.5 to 8.5), such as for example PBS (dipotassium hydrogen phosphate/sodium dihydrogen phosphate), TRIS (tris[hydroxymethyl]amino-methane), imidazole, MES (2-[N-morpholino]ethane-sulphonic acid] and HEPES (N-[2-hydroxyethyl]-piperazine-N′-[2-ethanesulphonic acid]) containing a salt to keep the ionic strength in the physiological range in order to maintain the molecules in their natural configuration. The salt concentra-tions are within the physiological concentration range, such as for example 10 to 880 mM NaCl, MgCl
2
, KCL or CaCl
2
. Detergents such as Triton X 100 or Tween 20; protease inhibitors such as trypsin inhibitor, phenylmethyl sulphonyl fluoride (PBSF), leupeptin and/or pepstatin, and antioxidants such as DTI or &bgr;-mercaptoethanol are preferably used as additives. Detergents generally prevent the calibrator materials from sticking to glass and plastic surfaces, whereas antioxidants help to maintain the analyte in the monomeric state by inhibiting di-sulfide bridge formation. Protease inhibitors prevent degradation of the troponin molecule by non-specific proteases present in the tissue extract.
The homogenate is centrifuged off and is preferably stored at a temperature of from −20° C. to −80° C. since low temperatures stabilize protein solutions upon storage. Dilutions of this preparation display reactivity with the antibodies used in the immunoassay which are specific for cardial troponin and in particular troponin I. In preparing calibrators, the heart homogenate, which is typically bovine heart tissue, is diluted in a dilution matrix. The troponin I activity in the above mentioned cardiac muscle preparation was not found to be present in a similarly processed skeletal muscle preparation. It was also found that it is only in the cardiac muscle preparation that the aforementioned antibodies recognize a protein which displays the same run properties in denaturing gel electrophoresis as isolated cardial troponin I.
The above mentioned preparation is also stable for several days in various physiological buffers at 20° C. and at 4° C. Suitable dilution matrices are processed and unprocessed human or animal sera or plasmas or the buffers mentioned as isolation media. In addition, preservatives such as sodium azide and Proclin 150 and stabilized proteins such as bovine serum albumin (BSA) or gamma globulins are used. Diluting the heart homogenate into a 6% aqueous BSA solution with the various additives mentioned is a preferred method for preparing the calibrator matrix. Typically, calibrators for immunoassays are prepared by dissolving the analyte to be measured in normal human serum. This is done to ensure that the calibrators match the clinical serum sample as closely as possible. However, the heart homogenate of the present invention is not very stable when incorporated into normal human serum. Therefore, an artificial matrix of normal human serum is prepared using BSA or other protein such as human serum albumin, fetal calf serum, bovine gamma globulin or oval bumin in an amount sufficient to approximate the average protein concentration of human serum (6% in the case of BSA) in combination with stabilizers along with buffer and salts to approximate the ionic strength of serum. For the purpose of improved reproducibility, the above mentioned preparation can also include the following steps: fractionation by routine methods such as for example gel filtration, the high-speed removal by centrifugation of insoluble components and/or filtration through sterile filters. In this manner it is possible to prepare stable liquid calibrators for the above mentioned immunoassay for the diagnosis of cardiac infarction in a very simple, inexpensive way. Furthermore the troponin preparation contains the molecule to be detected in a form in which it is predominately found in patient samples. The troponin in healthy heart muscle exists as a complex of troponin I, T and C and it is believed that in the heart homogenate of the present invention, troponin is present in the natural ITC complex form. Accordingly, the method of this invention can be used to prepare ca
Doth Margit
Petry Christoph
Jeffers Jerome L.
Klawitter Andrew L.
Nguyen Bao-Thuy L.
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