Last data update: May 06, 2024. (Total: 46732 publications since 2009)
Records 1-2 (of 2 Records) |
Query Trace: Burgos-Rivera B[original query] |
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An evaluation of the level of agreement in Bordetella species identification in three United States laboratories during a period of increased pertussis.
Burgos-Rivera B , Lee AD , Bowden KE , Faulkner AE , Seaton BL , Lembke BD , Cartwright CP , Martin SW , Tondella ML . J Clin Microbiol 2015 53 (6) 1842-7 While PCR is the most common method used for detecting Bordetella pertussis in the US, most laboratories use insertion sequence 481 (IS481), which is not specific for B. pertussis; therefore, the relative contribution of other Bordetella species is not understood. The objectives of this study were to evaluate the proportion of other Bordetella spp. misidentified as B. pertussis during a period of increased pertussis incidence, determine the level of agreement in Bordetella species detection between US commercial laboratories and CDC, and assess the relative diagnostic sensitivity of CDC's PCR assay when using a different PCR master mix. Specimens collected between May 2012-2013 were tested at two US commercial laboratories for B. pertussis and B. parapertussis detection. Every fifth specimen positive for IS481 and/or IS1001 with Ct values ≤35 was sent to CDC for PCR testing that identifies Bordetella species. Specimens with CDC PCR indeterminate or negative results were tested using an alternate PCR master mix. Of 755 specimens, there was agreement in species identification for 83.4% (n=630). Of those with different identifications (n=125), 79.2% (n=99) were identified as indeterminate B. pertussis at CDC. Overall, 0.66% (n=5) of the specimens were identified as B. holmesii or B. bronchiseptica at CDC. Of 115 specimens with indeterminate or negative results, 46.1% (n=53) were B. pertussis positive when tested by an alternate master mix, suggesting possible increase in assay sensitivity. This study demonstrates good agreement between the two US commercial laboratories and CDC and little misidentification of Bordetella species during the 2012 US epidemic. |
Prevalence and molecular characterization of pertactin-deficient Bordetella pertussis in the United States.
Pawloski LC , Queenan AM , Cassiday PK , Lynch AS , Harrison M , Shang W , Williams MM , Bowden KE , Burgos-Rivera B , Qin X , Messonnier N , Tondella ML . Clin Vaccine Immunol 2013 21 (2) 119-25 Pertussis has made a striking resurgence in the US, returning to record numbers of reported cases last observed in the 1950s. Bordetella pertussis isolates lacking pertactin, a key antigen component of the acellular pertussis vaccine, have been observed, suggesting that B. pertussis is losing pertactin in response to vaccine immunity. Screening of 1300 isolates from outbreak and surveillance studies (historical isolates collected from 1935 up to 2009, the 2010 California pertussis outbreak, US isolates from routine surveillance between 2010-2012, and the 2012 Washington pertussis outbreak) by conventional PCR and later by Western blot and prn sequencing analyses ultimately identified 306 pertactin-deficient isolates. Of these pertactin-deficient strains, 276 were identified as having an IS481 in the prn gene (prnIS481-positive). The first prnIS481-positive isolate was found in 1994, with the next prnIS481-positive isolates not detected until 2010. Pertactin-deficient isolates increased substantially to over 50% in 2012. Sequence analysis of pertactin-deficient isolates revealed various types of mutations in the prn gene, including two deletions, single nucleotide substitutions resulting in a stop codon, an inversion in the promoter, and a single nucleotide insertion resulting in a frame shift mutation. All but one mutation type were found in prn2 alleles. CDC013 was a predominant PFGE profile in the pertactin-positive isolates (203/994), but was found in only 5% (16/306) of the pertactin-deficient isolates. Interestingly, PFGE profiles CDC002 and CDC237 represented 55% (167/306) of the identified pertactin-deficient isolates. These results indicate that there has been a recent, dramatic increase in pertactin-deficient B. pertussis isolates throughout the US. |
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