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Abstract

The rapid identification of bacteria in cerebrospinal fluid (CSF) is very Important for patient management and antimicrobial therapies. We developed a 16S DNA microarray–based method that targets 16S rDNA and can directly detect bacteria from CSF without cultivation. Universal primers and specific probes were designed from the 16S rDNA sequence data retrieved directly from the GenBank database. The specificity of the assay is obtained through a combination of microarray hybridization and enzymatic labeling of the constructed specific probes. Cultivation-dependent assays were used as reference methods in the development and evaluation of the method. With the exception of Mycobacterium tuberculosis and Proteus mirabilis, forty-five positive blood culture media were successfully differentiated. When this procedure was applied directly to 100 CSF specimens, 29 specimens from 16 patients were positive by bacterial culture and 3 culture-positive CSF specimens produced no hybridized signals. The remaining 26 specimens were correctly identified, including one with mixed infection. The accuracy, sensitivity, and specificity of the assay can be increased further by designing more oligonucleotides for the microarray. This method is versatile and makes it possible to detect more bacteria in a single assay and discriminate different bacterial genera.

Keywords

16S rDNA microarray cerebrospinal fluid bacteria

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References

Issa

, Moiling

, Backman

, Unemo

, Sulaiman

, Oleen

PCR of cerebrospinal fluid for diagnosis of bacterial meningitis during meningococcal epidemics: an example from Sudan. Scand J Infect Dis 35:719-723, 2003.

Kotilainen

, Jalava

, Meurman

, Lehtonen

, Rintala

, Seppala

, Eerola

, Nikkari

Diagnosis of meningococcal meningitis by broad-range bacterial PCR with cerebrospinal fluid. J Clin Microbiol 36:2205-2209, 1998.

Hall

, Duke

, Urwin

An approach to the identification of the pathogens of bacterial meningitis by the polymerase chain reaction. Eur J Clin Microbiol Infect Dis 14:1090-1094, 1995.

Desai

, Pal

RB.

Polymerase chain reaction for the rapid diagnosis of tuberculous meningitis. Indian J Med Sci 56:546-552, 2002.

Backman

, Lantz

, Radstrom

, Oleen

Evaluation of an extended diagnostic PCR assay for detection and verification of the common causes of bacterial meningitis in CSF and other biological samples

Mol Cell Probes 13:49-60, 1999.

Greisen

, Loeffelholz

, Purohit

, Leong

PCR primers and probes for the 16S rRNA gene of most species of pathogenic bacteria, including bacteria found in cerebrospinal fluid. J Clin Microbiol 32:335-351, 1994.

Wilson

, Blitchington

, Greene

Amplification of bacterial 16S ribosomal DNA with polymerase chain reaction. J Clin Microbiol 28:1942-1946, 1990.

, Ding

, Yang

SJ.

Diagnostic Technique for Clinical Microbial Pathogen (1st ed.). Beijing: Military Medicine SJ and Science Publishing House, pp47–54, 1996.

van der Vliet

, Schukkink

, van Gemen

, Schepers

, Klatser

PR.

Nucleic acid sequence-based amplification (NASBA) for the identification of mycobacterium. J Gen Microbiol 139:2423-2429, 1993.

10.

Ausubel

, Brent

, Kingston

, Moore

, Seidman

, Smith

, Struhl

Short Protocols in Molecular Biology (3rd ed.). New York-John Wiley & Sons, Inc, pp60–71, 1995.

11.

, Perng

, Lee

, Wan

CC.

Use of PCR with universal primers and restriction endonuclease digestions for detection and identification of common bacterial pathogens in cerebrospinal fluid. J Clin Microbiol 38:2076-2080, 2000.

12.

von Wintzingerode

, Bocker

, Schlotelburg

, Chiu

, Storm

Jurinke

, Cantor

, Gobel

, van den Boom

van den Boom.

Base-specific fragmentation of amplified 16S rRNA genes analyzed by mass spectrometry: a tool for rapid bacterial identification. Proc Natl Acad Sci USA 14:7039-7044, 2002.

13.

Rudi

, Skulberg

, Jakobsen

KS.

Application of sequence-specific labeled 16S rRNA gene oligonucleotide probes for genetic profiling of cyanobacterial abundance and diversity by array hybridization. Appl Environ Microbiol 66:4004-4011, 2000.

14.

La Scolea

Jr , Dryja

Quantitation of bacteria in cerebrospinal fluid and blood of children with meningitis and its diagnostic significance

J Clin Microbiol 19:187-190, 1984.

15.

Anthony

, Brown

, French

GL.

Rapid diagnosis of bacteremia by universal amplification of 23S ribosomal DNA followed by hybridization to an oligonucleotide array. J Clin Microbiol 38:781-788, 2000

16.

Loy

, Horn

, Wagner

probeBase: an online resource for rRNA-targeted oligonucleotide probes. Nucleic Acids Res 31:514–516 2003.

Development and Evaluation of 16S rDNA Microarray for Detecting Bacterial Pathogens in Cerebrospinal Fluid

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