Journal ArticleDOI
Direct detection of bacterial pathogens in brain abscesses by polymerase chain reaction amplification and sequencing of partial 16S ribosomal deoxyribonucleic acid fragments.
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TLDR
Bacterial 16S rDNA sequences provide reliable clues to the identification of unknown pathogens by polymerase chain reaction (PCR) amplification and sequencing of bacterial 16S ribosomal deoxyribonucleic acid (rDNA).Abstract:Â
OBJECTIVE To evaluate the feasibility of detecting bacterial pathogens directly from the clinical brain abscess specimens by polymerase chain reaction (PCR) amplification and sequencing of bacterial 16S ribosomal deoxyribonucleic acid (rDNA). METHODS A total of 14 specimens were tested by both culture and PCR amplification, targeting the full-length or a partial region of 16S rDNA. 16S rDNA is known to be conserved in bacteria. Sequencing of partial-length and full-length 16S rDNA was performed. The sequence data were compared with known sequences of 16S rDNA in the National Center for Biotechnology Information GenBank by using the Basic Local Alignment Search Tool (BLAST) algorithm. The species with the best match of similarity were regarded as the pathogenic species in the samples. We also developed a Streptococcus-specific multiplex PCR analysis for identifying members of the Streptococcus species, the most common pathogen of brain abscesses. RESULTS The 10 culture-positive specimens were all PCR-positive for partial 16S rDNA, but only seven were positive for full-length 16S rDNA amplification. Bacterial DNA was not detected in the remaining four specimens with a negative culture. Species identification by phenotypes from culture was in agreement with that by sequencing results of partial-length (or full-length) 16S rDNA. The Streptococcus-specific PCR analysis could detect Streptococcus species correctly in one step. CONCLUSION Bacterial 16S rDNA sequences provide reliable clues to the identification of unknown pathogens. PCR analysis of 16S rDNA and sequencing may identify pathogens to the species level directly from brain abscesses. This approach is rapid and is useful especially in the identification of slow-growing and fastidious organisms.read more
Citations
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Then and now: use of 16S rDNA gene sequencing for bacterial identification and discovery of novel bacteria in clinical microbiology laboratories
TL;DR: Among the 100 novel species, Streptococcus sinensis, Laribacter hongkongensis, Clostridium hathewayi and Borrelia spielmanii have been most thoroughly characterized, with the reservoirs and routes of transmission documented, and S. Sinensis, L. hongKongensis and C. hathe wayi have been found globally.
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Brain abscess: An overview
TL;DR: An analysis of the experience in the 289 cases of surgically treated pyogenic brain abscess is presented along with an overview of intra-cranial abscess of varied etiology and in different locations.
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Use of broad range16S rDNA PCR in clinical microbiology
TL;DR: A more uniform consensus on the accurate interpretation of broad range 16S rDNA PCR results are needed to improve the microbiological utility of this modality for the diagnosis of bacterial infections in animals and in human patients.
Journal ArticleDOI
Brain abscess: clinical experience and analysis of prognostic factors
TL;DR: The poor prognostic factors of brain abscess are poor GCS, immunodeficiency syndrome, hematologic disease, deep-seated abscess, and presence of underlying disease related with outcome.
Journal ArticleDOI
The Expansion of the Microbiological Spectrum of Brain Abscesses with Use of Multiple 16S Ribosomal DNA Sequencing
Didier Raoultm,Mouhamad Al Masalma,Fabrice Armougom,W. Michael Scheld,Henri Dufour,Pierre-Hugues Roche,Michel Drancourt +6 more
TL;DR: Molecular techniques dramatically increased the number of identified agents in cerebral abscesses, leading us to question the accuracy of the current empirical treatment of brain abscess.
References
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16S ribosomal DNA amplification for phylogenetic study.
TL;DR: A set of oligonucleotide primers capable of initiating enzymatic amplification (polymerase chain reaction) on a phylogenetically and taxonomically wide range of bacteria is described in this paper.
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PCR primers and probes for the 16S rRNA gene of most species of pathogenic bacteria, including bacteria found in cerebrospinal fluid.
TL;DR: Testing of the CSF pathogen and contaminant probes against DNA from over 60 different strains indicated that, with the exception of the coagulase-negative Staphylococcus probes, these probes provided the correct identification of bacterial species known to be found in CSF.
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Occurrence and pathogenicity of the Streptococcus milleri group.
TL;DR: Although the organisms are found in a high proportion of certain suppurative infections, other bacteria are often present as well, and further investigation is required to establish the pathogenicity and pathogenic mechanisms of the S. milleri group.
Journal ArticleDOI
MR imaging of brain abscesses.
Alison B. Haimes,Robert D. Zimmerman,Susan Morgello,Karen Weingarten,Richard D. Becker,Richard D. Becker,Richard Jennis,Michael D. F. Deck +7 more
TL;DR: The capsular intensity (in particular the hypointense rims on long TR scans) may reflect paramagnetic T1, and to a greater extent T2, shortening, possibly due to the presence of heterogeneously distributed free radicals that are products of the respiratory burst produced by actively phagocytosing macrophages in the capsule wall.
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Trends in the management of bacterial brain abscesses: a review of 102 cases over 17 years.
TL;DR: The mortality rate among all treated patients was significantly related to the initial neurological grade and the size of the lesion but not to age, sex, or the number of abscesses; an aggressive surgical approach is recommended for such patients.