Patent Publication Number: US-4056608-A

Title: Cardiac glycoside or aglycone assays

Description:
BACKGROUND OF THE INVENTION 
     1. Field of the Invention 
     Immunoassays find wide application for the determination of a variety of drugs. Critical to the immunoassay is the reproducible binding of an antibody to the drug (hapten) of interest. Because of the nature of immunoassays, there can be a wide variety of interferences or sources of error. Where the sample is a serum sample, the serum brings with it all of the endogenous proteinaceous and polysaccharidic compositions present in serum, as well as numerous other organic compounds which are in the blood stream, either naturally or due to ingestion by the patient. These various materials can become involved, so as to interfere with the reproduceability and accuracy of the immunoassay. 
     The materials of usual interest, and for the purposes of the present invention, digoxin and digitoxin, are normally present in serum at extremely low concentrations, generally less than about 10 -8  M. Since in carrying out the immunoassay, the serum sample will be subjected to dilution, the concentration of the digoxin in the assay sample will generally be less than 10 -9  M. Thus, any significant interaction between the digoxin and digitoxin and the materials present in the serum or the antibody with the materials present in the serum can lead to erroneous results. 
     In attempting to enhance the accuracy and reproduceability of the immunoassay, methods must be chosen which do not introduce extraneous materials which will interfere subsequently with the assay. Furthermore, any material which is introduced must not affect the cardiac glycoside, so as to modify its binding to the antibody adversely. In addition, depending upon the particular immunoassay employed and the indicator used for detection, the method must not affect the indicator or the method for measurement in an adverse manner. 
     2. Description of the Prior Art 
     In Wong, Clin. Chen. 21, 216 (1975), an alkaline solution is employed for pre-treatment of serum in a competitive protein-binding procedure for determining serum thyroxine. 
     SUMMARY OF THE INVENTION 
     Serum, to be analyzed by an immunoassay for cardiac glycoside or aglycone is combined with a dilute aqueous alkaline solution, particularly an alkali metal hydroxide solution, preferably in combination with a chelating agent, at a moderate temperature for a short period of time. The resulting solution is then diluted with buffer or neutralized to the desired pH and the necessary reagents added. The cardiac glycoside or aglycones are then determined according to conventional immunoassay techniques, particularly radioimmunoassay and homogeneous enzyme immunoassay. 
     DESCRIPTION OF THE SPECIFIC EMBODIMENTS 
     An improved method for determining digoxin or its congeners e.g. digitoxin, digitoxigen, digoxigenin, digitoxigenin, etc. by immunoassays is provided, enhancing the accuracy and reproduceability of the immunoassay. The improvement comprises combining a serum sample with a small amount of a dilute alkaline solution at moderate temperatures for relatively short periods of time, preferably in combination with an amino (poly[aklylene carboxylic acid]) chelating agent. The resulting solution is then empolyed in a substantially conventional manner in an immunoassay. 
     In accordance with the subject invention, a serum sample is combined in a volume ratio generally varying from about 0.1-10:1, more usually 0.5-2:1 with an aqueous alkaline solution, so as to provide a final solution having a pH of at least about 10.5, generally in the range of about 11 to 13. The alkaline solution will generally vary from about 0.01 to 5N, more usually 0.1 to 2N in an alkali metal hydroxide, particularly of atomic number 11 to 19 and more particularly, sodium hydroxide. 
     The solutions are combined and incubated at a temperature of at least about 15° C and not exceeding about 50° C, more usually from about 20° to 40° C and preferably from about 25° to 30° C. The incubation time will be a function of the pH and temperature and will generally be at least about 1 minute, more usually at least about 5 minutes and not more than about 1 hour, preferably not more than about 30 minutes. 
     At the end of the incubation period, either sufficient buffer is added to provide the desired pH, or the solution may be neutralized with a mineral acid e.g. hydrochloric acid to reduce the pH, prior to the addition of buffer for the immunoassay. 
     The buffered solution or solution having a pH at the pH desired for the assay is now ready for testing. In the homogeneous enzyme immunoassay, reagents are added which include an enzyme conjugate to a digoxin derivative or a digoxin congener derivative, substrates for the enzyme, and antibody for digoxin or its congener (antidigoxin). A description of a particular homogeneous enzyme immunoassay for digoxin may be found in co-pending Application Ser. No. 649,942, filed 01/19/76 (TOWNSEND and TOWNSEND Docket No. 3652-36-13). 
     While satisfactory results can be obtained where the time intervals for the various procedural steps are maintained fairly constant, particularly the time interval for the pretreatment time, where the pretreatment time varies significantly, results can be erratic. However, by including in the pretreatment medium a small amount of a chelating agent, particularly aminoalkylenecarboxylic acids of from 1 to 3 amino nitrogen atoms and alkylene groups of from 1 to 2 carbon atoms, consistent results can be obtained despite varying pretreatment times. The concentration of the chelating agent will generally be at least 0.01M and not exceed 0.5M, more usually in the range of 0.02 to 0.1M, preferably about 0.05M. Of particular interest is ethylene diamine tetracetic acid, normally employed as the sodium salt. 
     In carrying out the assay, the serum solution which has been treated with the alkaline solution is combined with a reagent solution which contains antibody for digoxin, 0.08M NAD, 0.13M G-6-P, 1% w/v rabbit serum albumin, 0.05% w/v sodium azide, 0.005% w/v Thimerosal, buffered with 0.055M tris-HCl pH 7.9 (30° C). (w/v intends grams per 100ml.) The solution is then incubated, followed by the addition of the enzyme conjugate which is at a concentration to provide a convenient change in the spectrophotometric reading at 340nm at 30° C. Included in the enzyme solution is 1% w/v rabbit serum albumin and 0.9% w/v sodium chloride. 
     Upon addition of the enzyme reagent, a stop watch is begun, the mixture agitated, and a reading taken within 1 minute from the time of the addition of the enzyme reagent. The mixture is the allowed to sit in a thermostatted bath at 30° C for an additional 30 minutes and a second reading taken. The readings are recorded in ΔOD/min. and by employing appropriate standards, one can derive a concentration versus ΔOD/min. curve for determining the concentration of digoxin. 
     Radioimmunoassays for digoxin are commercially available and may be purchased as kits. In carrying out the radioimmunoassay, the reagent employed is a tagged digoxin, normally with either tritium or idodine-125. The alkaline treated serum solution is combined with antibody and tagged digoxin, a reagent is added to precipitate the antibody, the mixture centrifuged and the supernatant solution analyzed for radioactivity. By employing appropriate standards, a ratioactivity versus digoxin concentration curve can be established. 
     To demonstrate the effectiveness of employing the alkaline pre-treatment, a number of experiments were carried out. 
     In the first study, twenty different sera were employed, which were free of digoxin. In one series of experiments the sera were employed with antibody present in the assay mixture and with another series with the same sera, there was no antibody, so as to provide the maximum enzyme rate. It should be understood, that binding of antibody to the enzyme-digoxin conjugate results in a reduction in rate. 
     The particular enzyme conjugate employed in these tests was glucose-6 phosphate dehydrogenase. The specific protocol was to add to a cuvette 100μ1 of serum and 100μ1 of 0.1N sodium hydroxide and incubate the mixture for 15 minutes at 30° C. To the mixture is then added 500μ1 of the assay buffer (the buffer described for the antibody reagent), the mixture is agitated and 100μ1 of the substrate solution in buffer is added followed by 50μ1 of the antibody solution (or equivalent amount of buffer) with 400μ1 of buffer. Finally, 50μ1 of the enzyme solution and 400μ1 of buffer are added and the enzyme rate measured. The following table indicates the results for the 20 serum samples containing no digoxin. 
     
                       TABLE I                                                     
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                       No                                                 
           Antibody    Antibody                                           
______________________________________                                    
x.sup.-      425.90        561.4                                          
σ      3.70          3.6                                            
C.V.         0.87          0.64                                           
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     Following the procedure described above (no digoxin present), except that less buffer was used so as to provide a final volume of 1.2ml, no antibody was included and 5 100μ1 aliquots of a common serum pool were diluted with 100μ1 of water and another 5 100μ1 aliquots of serum were diluted with 100μ1 of 0.1N sodium hydroxide and the diluted serum samples incubated for 15 minutes at 30° C. The following table is a comparison of the results for the enzyme rate with and without alkaline treatment. 
     
                       TABLE II                                                    
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           With        Without                                            
           Treatment   Treatment                                          
______________________________________                                    
x            539           422                                            
σ      2.5           20.9                                           
C.V.         0.46          4.95                                           
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     In the next study, various incubation times were employed, whereby 200μ1 of serum containing 1 ng/ml digoxin was treated with 50μ1 of 0.5N sodium hydroxide. Otherwise, the procedure followed that described above. The following table indicates the results. 
     
                       TABLE III *                                                 
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Incubation                                                                
Time                                                                      
Min.        x-         σ    C.V.                                    
______________________________________                                    
0           601        13.9       2.91                                    
5           692        4.7        .68                                     
15          691        6.0        .87                                     
30          688        4.4        .64                                     
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 * 20 serum samples                                                       
 
    
     Finally, a ratioimmunoassay was employed substantially as described by Smith et al, New England J. of Medicine 281 1212 (1969). Employing 10 samples, each containing 2ug/ml of digoxin, 1ml of serum per sample was treated with 50μ1 of 2.1N aqueous sodium hydroxide and incubated for 15min. at ˜20° C, to which was then added 100μ1 of an aqueous solution 0.5M KH 2  PO 4 , 0.5M K 2  HPO 4  and 1.05M HCl. The resulting serum solution was then employed in accordance with procedures set forth for the ratioimmunoassay. The following table indicates the results. 
     
                       TABLE IV *                                                  
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            Average                                                       
            Assayed                                                       
            conc (ng/ml) C.V.                                             
______________________________________                                    
w/o treatment 1.6            13                                           
w/ treatment  2.0             7                                           
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 * 2 ng spike                                                             
 
    
     A number of assays were carried out where the pretreatment time was varied, one series having 0.5M EDTA included and the other series without EDTA. The results are reported as ΔOD for an 80 second interval between readings. (EDTA-ethylene diamine tetracetic acid, sodium salt) 
     
         ______________________________________                                    
Minutes After Initial                                                     
                 With        Without                                      
Mixing of Serum and                                                       
                 EDTA        EDTA                                         
Pretreatment Reagent                                                      
                 ΔOD   ΔOD                                    
______________________________________                                    
2                607         593                                          
4                            586                                          
5                611                                                      
6                            585                                          
9                618                                                      
10                           572                                          
11               607                                                      
14                           537                                          
15               615                                                      
16                           541                                          
21                           503                                          
26               610                                                      
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     It is evident from the above results, that greater reproduceability and accuracy in immunoassays is achieved by a mild pre-treatment of serum suspected of containing digoxin, with an alkaline solution particularly in combination with EDTA. The pre-treatment with sodium hydroxide in no wise interferes with the subsequent immunoassay, the high pH is easily overcome by dilution with buffer and the technique employs simple reagents without requiring expensive equipment. Thus, the usefulness of immunoassays is greatly enhanced for the determination of digoxin and its congeners by the subject invention. 
     Although the foregoing invention has been described in some detail by way of illustration and example for purposes of clarity of understanding, it will be obvious that certain changes and modifications may be practiced within the scope of the appended claims.