MUC1 serum assays in breast cancer: tumor specificities and reference levels.

The aim of the study was to establish reference ranges and to explore the tumor specificities of two automated assays for MUC1. Sera from 124 female blood donors, 144 patients with benign disease of the breast, 69 patients with stage I, 75 with stage II, 89 with stage III and 38 patients with stage IV breast cancer were analyzed for MUC1 levels using two automated immunometric assays employing assay antibody pairs Ma695/Ma552 and BC2/GP1.4, respectively.

Immunometric assay interference: incidence and prevention.

Background: The primary aim of the study was to reduce interference in an in-house two-site, two-step immunometric assay.

Methods: In the running laboratory routine, 11 261 samples were tested with a carcinoembryonic antigen (CEA) assay with bovine immunoglobulin but no murine immunoglobulins in the buffer, in parallel to our routine CEA assay, using 15 mg/L heat-treated nonspecific murine immunoglobulin (MAK33) in the buffer and with the Fc fragments removed from the capture antibody.

Results: The frequency of interference was estimated to be 4.

Elevated CA125 in breast cancer--A sign of advanced disease.

The serum tumor markers CA 125, MUC1 and CEA were measured in 221 breast cancer patients over a period of 2 years. Patients examined on at least three occasions were included in the study. Thirty-three patients had increasing or continuously high concentrations of CA 125.

New immunoassays for MUC1 in breast cancer.

Eleven experimental immunofluorometric assays (IFMAs) were made using antibodies previously tested for epitope specificities. These assays were compared with six commercially available immunoassays. The clinical performance of these experimental assays was evaluated by analysing sera from 138 breast cancer patients and 105 female blood donors.

Automated immunofluorometric assay for MUC1.

The aim of the present study was to establish a robust, reliable and fully automated immunofluorometric assay for the breast cancer serum marker MUC1. This would further serve as a prototype assay for evaluation of other MUC1 assays based on new antibody combinations. Using time-resolved fluorescence as tracer signal we developed an automated immunofluorometric assay for MUC1 (MUC1 IFMA).