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Massive Parallel Sequencing Provides New Perspectives on Bacterial Brain Abscesses
Author(s) -
Øyvind Kommedal,
Marianne Thulin Wilhelmsen,
Steinar Skrede,
Roger Meisal,
Aleksandra Jakovljev,
Peter Gaustad,
Nils Olav Hermansen,
Einar Osland Vik-Mo,
Ole Solheim,
Ole Herman Ambur,
Øystein Sæbø,
Christina Teisner Høstmælingen,
Christian A. Helland
Publication year - 2014
Publication title -
journal of clinical microbiology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.349
H-Index - 255
eISSN - 1070-633X
pISSN - 0095-1137
DOI - 10.1128/jcm.00346-14
Subject(s) - biology , fusobacterium nucleatum , microbiology and biotechnology , sanger sequencing , brain abscess , 16s ribosomal rna , ion semiconductor sequencing , microbiological culture , actinomyces , dna sequencing , bacteria , abscess , genetics , gene , porphyromonas gingivalis
Rapid development within the field of massive parallel sequencing (MPS) is about to bring this technology within reach for diagnostic microbiology laboratories. We wanted to explore its potential for improving diagnosis and understanding of polymicrobial infections, using bacterial brain abscesses as an example. We conducted a prospective nationwide study on bacterial brain abscesses. Fifty-two surgical samples were included over a 2-year period. The samples were categorized as either spontaneous intracerebral, spontaneous subdural, or postoperative. Bacterial 16S rRNA genes were amplified directly from the specimens and sequenced using Ion Torrent technology, with an average of 500,000 reads per sample. The results were compared to those from culture- and Sanger sequencing-based diagnostics. Compared to culture, MPS allowed for triple the number of bacterial identifications.Aggregatibacter aphrophilus ,Fusobacterium nucleatum , andStreptococcus intermedius or combinations of them were found in all spontaneous polymicrobial abscesses.F. nucleatum was systematically detected in samples with anaerobic flora. The increased detection rate forActinomyces spp. and facultative Gram-negative rods further revealed several species associations. We suggest thatA. aphrophilus ,F. nucleatum , andS. intermedius are key pathogens for the establishment of spontaneous polymicrobial brain abscesses. In addition,F. nucleatum seems to be important for the development of anaerobic flora. MPS can accurately describe polymicrobial specimens when a sufficient number of reads is used to compensate for unequal species concentrations and principles are defined to discard contaminant bacterial DNA in the subsequent data analysis. This will contribute to our understanding of how different types of polymicrobial infections develop.

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