Evaluation of the adequacy of measles laboratory diagnostic tests in the era of accelerating measles elimination in Beijing, China

Laboratory diagnosis of measles infection using molecular and serology during 2019-2020 outbreak in Brazil

INTRODUCTION

Laboratory diagnosis of measles can be challenging, and the reintroduction of the measles virus in Brazil has brought about new issues. The aim of this study was to analyze the qPCR results of swab and urine samples and compare them with those of immunological methods for the diagnosis of measles.

METHODS

This was a cross-sectional study based on a retrospective analysis of 3,451 suspected cases using laboratory test surveillance databases for qPCR (respiratory swabs and urine) and serologic tests for IgM and paired IgG. Sensitivity, specificity, positive predictive value, negative predictive value, accuracy, and agreement through kappa and adjusted kappa coefficients (PABAK) were calculated using different diagnostic strategies.

RESULTS

The swab and urine samples obtained using real-time qPCR were equivalent. Samples collected simultaneously and the combined samples showed moderate agreement between IgM ELISA and real-time qPCR; however, 48.9 % of the IgM ELISA analyses did not demonstrate detectable qPCR concentrations during simultaneous collections and 43.9 % of combined collections. The paired analysis of IgG showed an accuracy of 67.5 % for IgM and 90.7 % for real-time qPCR.

CONCLUSIONS

Diagnosis based on IgM presents detection delimitation in samples collected early (1-5 days), suggesting that these individuals satisfy at least two criteria. In addition to qPCR, paired analysis of IgG using ELISA can be used to increase the sensitivity and specificity of laboratory diagnoses.

Measles outbreak in the sanitary area of Guadalajara (Spain): difficulty in microbiological diagnosis in the era of its elimination

INTRODUCTION

In Spain, like in other countries where endemic measles has been eliminated, there is a need for available diagnostic tolos for confirming any cases in order to prevent and control its transmission. We describe the different microbiological tests used for the diagnosis of measles during an outbreak that occurred in 2019 in the province of Guadalajara (Spain).

METHODS

Serological and molecular tests were performed at the Microbiology laboratory of the Guadalajara University Hospital and at the National Center for Microbiology of the Carlos III Health Institute (Majadahonda, Spain). Patient data were obtained from the surveillance system.

RESULTS

A total of 43 patients had a laboratory diagnosis of measles: 29 cases by PCR (pharyngeal exudate or urine) and positive specific IgM, 11 cases by PCR, and 3 cases only by a positive IgM. Genotype D8 was identified in 35 confirmed cases and genotype A in two that were discarded as post-vaccination cases. PCR was positive in the acute sera of 11 out of 14 patients with a negative IgM. Eleven confirmed cases had recieved one or two vaccine doses. Twelve adult patients were hospitalizated, all of them with a diagnostic of hepatitis.

CONCLUSIONS

The combination of molecular tests and the presence of specific IgM is necessary for a correct diagnosis of measles and also to classify patients with a breakthrough infection or vaccine failures (primary or secondary). Genotyping is essential for the correct classification of the patients in the context of a measles elimination program.

Measles outbreak in the sanitary area of Guadalajara (Spain): Difficulty in microbiological diagnosis in the era of its elimination

INTRODUCTION

In Spain, like in other countries where endemic measles has been eliminated, there is a need for available diagnostic tools for confirming any cases in order to prevent and control its transmission. We describe the different microbiological tests used for the diagnosis of measles during an outbreak that occurred in 2019 in the province of Guadalajara (Spain).

METHODS

Serological and molecular tests were performed at the Microbiology laboratory of the Guadalajara University Hospital and at the National Center for Microbiology of the Carlos III Health Institute (Majadahonda, Spain). Patient data were obtained from the surveillance system.

RESULTS

A total of 43 patients had a laboratory diagnosis of measles: 29 cases by PCR (pharyngeal exudate or urine) and positive specific IgM, 11 cases by PCR, and 3 cases only by a positive IgM. Genotype D8 was identified in 35 confirmed cases and genotype A in 2 that were discarded as post-vaccination cases. PCR was positive in the acute sera of 11 out of 14 patients with a negative IgM. Eleven confirmed cases had recieved one or 2 vaccine doses. Twelve adult patients were hospitalizated, all of them with a diagnostic of hepatitis.

CONCLUSIONS

The combination of molecular tests and the presence of specific IgG and IgM are necessary for a correct diagnosis of measles and also to classify patients with a breakthrough infection or vaccine failures (primary or secondary). Genotyping is essential for the correct classification of the patients in the context of a measles elimination program.

Evaluation of a measles virus multiplex, triple-target real-time RT-PCR in three specimen matrices at a U.S. academic medical center

BACKGROUND

Measles virus (MeV) is an important cause of acute febrile illness and pediatric mortality globally, with recent U.S. outbreaks associated with under-vaccination. MeV is highly contagious and timely diagnosis is critical to limit spread. RNA detection is the most sensitive method for acute measles diagnosis; however, MeV nucleic acid amplification assays are not widely available.

METHODS

We performed a diagnostic accuracy study of a triple-target, real-time RT-PCR (rRT-PCR) assay for simultaneous detection of MeV N, H, and L genes.

RESULTS

The MeV triple-target rRT-PCR was tested against serial dilutions (7.0-2.0 log₁₀ copies/mL) of five MeV isolates representing circulating genotypes, and detected 98.7% (74/75) of nasopharyngeal (NP) swab dilutions, 100% (75/75) of plasma dilutions, and 85.3% (64/75) of urine dilutions. MeV RNA detection in urine was markedly improved with the addition of a nucleic acid stabilizing agent. A 95% lower limit of detection (LLOD) of < 3.0 log₁₀ copies/mL was established in each specimen matrix. No cross-reactivity with relevant viruses or interfering substances were identified in specificity studies. The MeV triple-target rRT-PCR detected all three gene targets in a clinical NP swab from an individual with confirmed measles infection. Furthermore, pooled testing from 798 influenza A/B/RSV-negative pediatric NP swabs identified two specimens positive for MeV RNA, confirmed by N gene sequencing to represent shedding of the vaccine-type measles virus.

CONCLUSIONS

The MeV triple-target rRT-PCR assay showed high analytic sensitivity across circulating MeV genotypes in three clinically-relevant matrices. Implementation of this assay in the clinical laboratory may facilitate timely diagnosis of acute measles infection and implementation of appropriate infection control interventions.