Your search keyword '"Bzdrenga, Janek"' showing total 4 results

1. A New Highly Sensitive and Specific Real-Time PCR Assay Targeting the Malate Dehydrogenase Gene of Kingella kingae and Application to 201 Pediatric Clinical Specimens.

Author

El Houmami N, Durand GA, Bzdrenga J, Darmon A, Minodier P, Seligmann H, Raoult D, and Fournier PE

Subjects

Child, Child, Preschool, Female, Humans, Infant, Kingella kingae classification, Kingella kingae genetics, Male, Phylogeny, Reproducibility of Results, Sensitivity and Specificity, Bacterial Proteins genetics, Kingella kingae isolation & purification, Malate Dehydrogenase genetics, Molecular Diagnostic Techniques methods, Neisseriaceae Infections diagnosis, Real-Time Polymerase Chain Reaction

Abstract

Kingella kingae is a significant pediatric pathogen responsible for bone and joint infections, occult bacteremia, and endocarditis in early childhood. Past efforts to detect this bacterium using culture and broad-range 16S rRNA gene PCR assays from clinical specimens have proven unsatisfactory; therefore, by the late 2000s, these were gradually phased out to explore the benefits of specific real-time PCR tests targeting the groEL gene and the RTX locus of K. kingae However, recent studies showed that real-time PCR (RT-PCR) assays targeting the Kingella sp. RTX locus that are currently available for the diagnosis of K. kingae infection lack specificity because they could not distinguish between K. kingae and the recently described Kingella negevensis species. Furthermore, in silico analysis of the groEL gene from a large collection of 45 K. kingae strains showed that primers and probes from K. kingae groEL -based RT-PCR assays display a few mismatches with K. kingae groEL variations that may result in decreased detection sensitivity, especially in paucibacillary clinical specimens. In order to provide an alternative to groEL - and RTX-targeting RT-PCR assays that may suffer from suboptimal specificity and sensitivity, a K. kingae -specific RT-PCR assay targeting the malate dehydrogenase ( mdh ) gene was developed for predicting no mismatch between primers and probe and 18 variants of the K. kingae mdh gene from 20 distinct sequence types of K. kingae This novel K. kingae -specific RT-PCR assay demonstrated high specificity and sensitivity and was successfully used to diagnose K. kingae infections and carriage in 104 clinical specimens from children between 7 months and 7 years old., (Copyright © 2018 American Society for Microbiology.)

Published

2018

2. Molecular Tests That Target the RTX Locus Do Not Distinguish between Kingella kingae and the Recently Described Kingella negevensis Species.

Author

El Houmami N, Bzdrenga J, Durand GA, Minodier P, Seligmann H, Prudent E, Bakour S, Bonacorsi S, Raoult D, Yagupsky P, and Fournier PE

Subjects

Arthritis, Infectious microbiology, Bacterial Toxins metabolism, Chaperonin 60 genetics, Child, Preschool, Female, Humans, Infant, Male, Neisseriaceae Infections microbiology, Osteomyelitis microbiology, Polymerase Chain Reaction, RNA, Ribosomal, 16S genetics, Arthritis, Infectious diagnosis, Bacterial Toxins genetics, Kingella kingae classification, Kingella kingae genetics, Neisseriaceae Infections diagnosis, Osteomyelitis diagnosis

Abstract

Kingella kingae is an important invasive pathogen in early childhood. The organism elaborates an RTX toxin presumably restricted to this species. Consequently, real-time quantitative PCR (qPCR) assays targeting the RTX locus have been developed in recent years and are gaining increasing use for the molecular diagnosis of K. kingae infections. However, the present study shows that Kingella negevensis , a Kingella species newly identified in young children, harbors an identical Kingella RTX locus, raising the question of whether K. negevensis can be misidentified as K. kingae by clinical microbiology laboratories. In silico comparison of Kingella sp. RTX and groEL genes and in vitro studies provided evidence that targeting the rtxA and rtxB genes could not differentiate between strains of K. kingae and K. negevensis , whereas targeting the groEL gene could. This prompted the design of a highly specific and sensitive qPCR assay targeting K. negevensis groEL ( kngroEL ). Ninety-nine culture-negative osteoarticular specimens from 99 children younger than 4 years of age were tested with a conventional 16S rRNA gene-based broad-range PCR assay and Kingella -specific rtxB , K. kingae -specific groEL ( kkgroEL ), and kngroEL qPCR assays. Forty-two specimens were rtxB positive, including 41 that were also kkgroEL positive and 1 (the remaining one) that was kngroEL positive. Thus, this study discloses an invasive infection caused by K. negevensis in humans and demonstrates that targeting the RTX locus cannot be used for the formal diagnosis of K. kingae infections. These findings stress the need for further studies on the epidemiology of asymptomatic carriage and invasive infections caused by K. negevensis in humans., (Copyright © 2017 American Society for Microbiology.)

Published

2017

3. A modified multilocus sequence typing protocol to genotype Kingella kingae from oropharyngeal swabs without bacterial isolation.

Author

El Houmami N, Bzdrenga J, Pons JC, Minodier P, Durand GA, Oubraham A, Ceroni D, Yagupsky P, Raoult D, Bidet P, and Fournier PE

Subjects

Bacterial Proteins genetics, Child, Disease Outbreaks, Europe, Humans, Kingella kingae classification, Molecular Epidemiology, Neisseria genetics, Neisseriaceae Infections diagnosis, Neisseriaceae Infections epidemiology, Neisseriaceae Infections microbiology, Polymerase Chain Reaction methods, Species Specificity, Genotype, Genotyping Techniques methods, Kingella kingae genetics, Kingella kingae isolation & purification, Multilocus Sequence Typing methods, Oropharynx microbiology

Abstract

Background: Outbreaks of Kingella kingae infection are an emerging public health concern among daycare attendees carrying epidemic clones in the oropharynx. However, genotyping of such epidemic clones from affected cases is limited by the low performance of current methods to detect K. kingae from blood samples and lack of specimens available from infected sites. We aimed at developing a modified multilocus sequence typing (MLST) method to genotype K. kingae strains from oropharyngeal samples without prior culture. We designed in silico MLST primers specific for K. kingae by aligning whole nucleotide sequences of abcZ, adk, aroE, cpn60, recA, and gdh/zwf genes from closely related species belonging to the Kingella and Neisseria genera. We tested our modified MLST protocol on all Kingella species and N. meningitidis, as well as 11 oropharyngeal samples from young children with sporadic (n = 10) or epidemic (n = 1) K. kingae infection., Results: We detected K. kingae-specific amplicons in the 11 oropharyngeal samples, corresponding to sequence-type 6 (ST-6) in 6 children including the epidemic cases, ST-25 in 2 children, and 3 possible novel STs (ST-67, ST-68, and ST-69). No amplicon was obtained from other Kingella species and N. meningitidis., Conclusions: We herein developed a specific MLST protocol that enables genotyping of K. kingae by MLST directly from oropharyngeal samples. This discriminatory tool, with which we identified the first K. kingae outbreak caused by ST-6 in Europe, may be used in further epidemiological investigations.

Published

2017

4. An Outbreak of Kingella Kingae Infections Complicating a Severe Hand, Foot, And Mouth Disease Outbreak in Nice, France, 2016.

Author

El Houmami N, Cointat V, Mirand A, Fouilloux V, Bzdrenga J, Bakour S, Minodier P, Dubois MA, Anave-Frapech F, Charrel R, Raoult D, and Fournier PE

Subjects

Endocarditis, Bacterial complications, Endocarditis, Bacterial microbiology, Endocarditis, Bacterial pathology, Female, France epidemiology, Humans, Infant, Kingella kingae genetics, Male, Molecular Diagnostic Techniques, Neisseriaceae Infections complications, Neisseriaceae Infections microbiology, Neisseriaceae Infections pathology, Polymerase Chain Reaction, Disease Outbreaks, Endocarditis, Bacterial diagnosis, Hand, Foot and Mouth Disease complications, Hand, Foot and Mouth Disease epidemiology, Kingella kingae isolation & purification, Neisseriaceae Infections diagnosis

Abstract

We report the investigation methods for the diagnosis of an epidemic and culture-negative Kingella kingae endocarditis complicating a severe outbreak of hand, foot and mouth disease in a childcare center. The diagnosis was confirmed by polymerase chain reaction testing performed from cardiac tissue. Our findings argue for the systematic investigation of K. kingae outbreaks by using molecular tools in such context.

Published

2017