Comparison of the Sensitivity of Laboratory Diagnostic Methods from a Well-characterized Outbreak of Mumps in New York City in 2009

Overview

Journal Clin Vaccine Immunol

Publisher American Society for Microbiology

Specialties Allergy & Immunology
Pathology

Date 2013 Jan 18

PMID 23324519

Citations 28

Authors

Jennifer S Rota

Jennifer B Rosen

Margaret K Doll

Rebecca J McNall

Marcia McGrew

Nobia Williams

Elena N Lopareva

Albert E Barskey

Amado Punsalang Jr

Paul A Rota

William R Oleszko

Carole J Hickman

Christopher M Zimmerman

William J Bellini

Affiliations

Soon will be listed here.

Abstract

A mumps outbreak in upstate New York in 2009 at a summer camp for Orthodox Jewish boys spread into Orthodox Jewish communities in the Northeast, including New York City. The availability of epidemiologic information, including vaccination records and parotitis onset dates, allowed an enhanced analysis of laboratory methods for mumps testing. Serum and buccal swab samples were collected from 296 confirmed cases with onsets from September through December 2009. All samples were tested using the Centers for Disease Control and Prevention (CDC) capture IgM enzyme immunoassay (EIA) and a real-time reverse transcription-PCR (rRT-PCR) that targets the short hydrophobic gene. A subset of the samples (n = 205) was used to evaluate 3 commercial mumps IgM assays and to assess the sensitivity of using an alternative target gene (nucleoprotein) in the rRT-PCR protocol. Among 115 cases of mumps with 2 documented doses of measles, mumps, and rubella (MMR) vaccine, the CDC capture IgM EIA detected IgM in 51% of serum samples compared to 9% to 24% using three commercial IgM assays. The rRT-PCR that targeted the nucleoprotein gene increased RNA detection by 14% compared to that obtained with the original protocol. The ability to detect IgM improved when serum was collected 3 days or more after symptom onset, whereas sensitivity of RNA detection by rRT-PCR declined when buccal swabs were collected later than 2 days after onset. Selection of testing methods and timing of sample collection are important factors in the ability to confirm infection among vaccinated persons. These results reinforce the need to use virus detection assays in addition to serologic tests.

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