Multiplex Detection of IgM and IgG Class Antibodies to Toxoplasma gondii,Rubella Virus,and Cytomegalovirus Using a Novel Multiplex Flow Immunoassay

The goal of this study was to evaluate the BioPlex 2200 Toxoplasma, rubella, and cytomegalovirus (CMV) (ToRC) IgG and IgM multiplex immunoassays (Bio-Rad Laboratories, Hercules, CA) and compare the results to those of conventional testing by enzyme immunoassay (EIA) and enzyme-linked fluorescent assay (ELFA). Serum specimens (n = 600) submitted for routine ToRC IgG and IgM testing by EIA (SeraQuest, Doral, FL; Diamedix, Miami, FL) or ELFA (Vidas; bioMérieux, Durham, NC) were also tested by the BioPlex ToRC multiplex immunoassays. Samples showing discordant results were retested by both methods, with further discrepancies being arbitrated by a third assay. Following repeat testing, the BioPlex Toxoplasma, rubella, and CMV IgG assays demonstrated agreements of 98.7 (592/600 specimens), 93.3 (560/600 specimens), and 98.3% (590/600 specimens), respectively, while the ToRC IgM assays yielded agreements of 91.2 (547/600 specimens), 87.3 (524/600 specimens), and 95.2% (571/600 specimens), respectively. The BioPlex ToRC IgG assays provided results comparable to EIA/ELFA results, with kappa coefficients showing near-perfect agreement for the Toxoplasma (κ = 0.94) and CMV (κ = 0.97) IgG assays and substantial agreement for the rubella IgG assay (κ = 0.66). The BioPlex ToRC IgM assays showed lower specificity with only slight agreement for Toxoplasma IgM (κ = 0.07), poor agreement for rubella IgM (κ = −0.03), and moderate agreement for CMV IgM (κ = 0.55). Both the BioPlex IgG and IgM assays reduced turnaround time (1.7 h versus 5.5 h by EIA/ELFA for 100 specimens) and eliminated the necessity to manually pipette or aliquot specimens prior to testing.Congenital infections caused by Toxoplasma gondii, rubella, and cytomegalovirus (CMV) are a significant cause of neonatal mortality and childhood morbidity worldwide (6, 18, 21). Due to their nonspecific clinical manifestations and the importance of early recognition of in utero infection, serologic screening for these pathogens has been considered a routine practice in many parts of the world (11). Conventional methods for the detection of antibodies to Toxoplasma, rubella, and CMV (ToRC) include immunofluorescence (IFA), enzyme immunoassay (EIA), and enzyme-linked fluorescent assay (ELFA). These techniques have been used for years in both diagnostic and screening protocols for ToRC infection and have demonstrated reliable performance (5, 10, 14, 22). However, these methods have certain limitations, including low throughput, significant hands-on time, and in the case of IFA, a subjective interpretation of results.Recently, multiplex flow immunoassay (MFI) technology emerged as a novel approach to assess the serologic response to various infectious diseases (3, 4, 13). This technology is similar to traditional EIA but allows for the simultaneous detection and identification of multiple analytes in a single reaction. MFI technology uses a liquid suspension array of up to 100 unique microspheres (5- to 6-μm beads), each conjugated with a different capture molecule (e.g., antibody, antigen, nucleic acid). Each capture analyte is detected and quantitated following the addition of a fluorescently labeled reporter molecule (e.g., phycoerythrin) whose emission is measured by a flow-based detector. In 2009, Bio-Rad Laboratories (Hercules, CA) received FDA clearance for a ToRC IgG immunoassay based on MFI technology. In addition, Bio-Rad has developed a prototype ToRC IgM assay for use in cases of suspected acute infection. These assays are fully automated on the BioPlex 2200 automated analyzer (Bio-Rad Laboratories), allowing for a high-throughput analysis of the ToRC IgG and IgM class antibody response.Due to increasing test volumes (∼20% in the past 5 years) and the limitations of conventional methods (e.g., low throughput, increased hands-on time, and the requirement to aliquot samples prior to testing), we undertook a study to evaluate the BioPlex ToRC IgG and IgM immunoassays using clinical serum samples. The goal of this study was to compare the results of the BioPlex to routine testing by EIA/ELFA, using a third assay to arbitrate discordant results.