Myocardial infarction immunoassay
First Claim
1. An immunological method for determining the time of occurrence of an acute myocardial infarction in a patient, wherein infarction is associated with an amount of a first isoform of a creatine kinase enzyme in a body fluid greater than the amount of said first isoform in the fluid prior to infarction, where a first epitope on the first isoform is structurally modified in vivo by loss of a terminal lysine residue after the infarction to form a second epitope on a second isoform of said creatine kinase enzyme and the concentration of the first and second isoforms in the fluid changes in a known pattern with time, wherein said first and second isoforms are selected from the group consisting of CK-Mm isoforms, comprising the steps of:
- (1) determining the concentration A of said first isoform in the fluid,(2) determining the concentration B of said second isoformwherein one of the first and second determining steps comprises detecting the amount of the first or second isoform in the fluid by specifically binding an antibody to the first epitope on said first isoform or the second epitope on said second isoform in the fluid, and(3) correlating increase in concentration A and the change in concentration B relative to concentration A to the known pattern of concentration change to determine the time of occurrence of the infarction.
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Accused Products
Abstract
Methods and reagents for determining the lapse of time since an acute disease event, such as the occurrence of a myocardial infarction, are presented. A serum sample is assayed to determine the concentration of two analyte sets. From these measurements, the time of the acute event can be more accurately determined. Novel antibodies, labeled and insolubilized derivatives of these antibodies, labeled proteins, and kits containing one or more of these reagents are also described.
50 Citations
13 Claims
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1. An immunological method for determining the time of occurrence of an acute myocardial infarction in a patient, wherein infarction is associated with an amount of a first isoform of a creatine kinase enzyme in a body fluid greater than the amount of said first isoform in the fluid prior to infarction, where a first epitope on the first isoform is structurally modified in vivo by loss of a terminal lysine residue after the infarction to form a second epitope on a second isoform of said creatine kinase enzyme and the concentration of the first and second isoforms in the fluid changes in a known pattern with time, wherein said first and second isoforms are selected from the group consisting of CK-Mm isoforms, comprising the steps of:
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(1) determining the concentration A of said first isoform in the fluid, (2) determining the concentration B of said second isoform wherein one of the first and second determining steps comprises detecting the amount of the first or second isoform in the fluid by specifically binding an antibody to the first epitope on said first isoform or the second epitope on said second isoform in the fluid, and (3) correlating increase in concentration A and the change in concentration B relative to concentration A to the known pattern of concentration change to determine the time of occurrence of the infarction. - View Dependent Claims (2, 3)
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4. An immunological method for determining the time of occurrence of an acute myocardial infarction in a patient, wherein infarction is associated with an amount of a first substance in a body fluid greater than the amount of the first substance in the fluid prior to infarction, where a first epitope on the first substance is structurally modified in vivo after infarction to form a second epitope on a second substance, wherein the in vivo modification corresponds to in vitro treatment of the first substance with carboxypeptidase, and the concentration of the first and second substances in the fluid changes in a known pattern with time, wherein each of the first and second substances is selected from the group consisting of MI-PA, MI-DB and mixtures thereof, and said MI-PA and MI-DB are obtained by affinity chromatography using antibodies produced by the hybridomas having ATCC accession numbers HB9913 and HB9912, respectively, comprising the steps of:
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(1) determining the concentration A of said first substance in the fluid, (2) determining the concentration B of said second substance in the fluid, wherein one of the first and second determining steps comprises detecting the amounts of said first or second substance in the fluid by specifically binding an antibody to the epitope on said first substance or the modified epitope on said second substance in the fluid, and (3) correlating increase in concentration A and the change in concentration B relative to concentration A to the known pattern of concentration change to determine the time of occurrence of the infarction. - View Dependent Claims (5, 6, 7)
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8. A hybridoma producing anti-(MI-DB) antibodies, wherein said hybridoma is hybridoma ATCC HB9912.
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9. An antibody produced by hybridoma ATCC HB9912.
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10. A hybridoma producing anti-(MI-DB) antibodies, wherein said hybridoma is hybridoma ATCC HB9914.
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11. An antibody produced by hybridoma ATCC HB9914.
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12. An immunoassay kit for determining the occurrence of a myocardial infarction or the lapse of time since a myocardial infarction, comprising in any suitable container, an antibody selected from the group consisting of anti-(MI-PA)-antibody produced by the hybridoma having ATCC accession no. HB9913, and anti-(MI-DB)-antibody produced by the hybridoma having ATCC accession no. HB9912.
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13. An immunoassay kit for determining the occurrence of a myocardial infarction or the lapse of time since a myocardial infarction, comprising in a suitable container, anti-(CK-MMC)-antibody produced by the hybridoma having ATCC accession no. HB9914.
Specification