Improving laboratory techniques to detect M. tuberculosis complex and C. neoformans as the causative agents of chronic meningitis in cerebrospinal fluid of adult patients.

Description

Thesis (MScMedSc (Pathology. Medical Microbiology))--University of Stellenbosch, 2010. / ENGLISH ABSTRACT: INTRODUCTION
Mycobacterium tuberculosis (MTB) and Cryptococcus neoformans are the most common
causes of chronic meningitis in South Africa. Conventional microbiology has limited utility in
diagnosing these pathogens due to the paucibacillary nature of cerebrospinal fluid (CSF) and
the diagnostic delay associated with culturing methods. This study aimed to evaluate the utility
of an in-house polymerase chain reaction (PCR) method for the detection of the etiological
agent of chronic meningitis.
METHODS
CSF samples (where volume exceeded 5ml) were submitted to the Medical Microbiology
diagnostic laboratory of the Tygerberg Hospital from patients with suspected tuberculosis
meningitis (TBM). Following routine bacteriology, the sample was used to inoculate two
mycobacterial growth indicator tubes (MGIT A and B) and subsequently incubated in the
BACTEC 960 automated system. MGIT A followed standard operating procedures and the time
to culture positivity was noted.
Weekly aliquots (up to 6 weeks) were removed from MGIT B. These samples were boiled to
inactivate the bacteria and then the DNA was extracted using the Promega Wizard SV
Genomic DNA kit. The DNA was then speciated by PCR and high-resolution melting analysis
(HRM) by using primers specific to either the RD9 region of MTB complex or primers specific to
the partial internal transcribed spacer 1 (ITS1), 5.8S rRNA gene and partial ITS2 sequence of
C. neoformans.
RESULTS
Routine CSF microscopy indicated that 14 of the 78 patients (17.9%) had typical CSF findings
of TBM (lymphocytes predominant, increased protein levels and decreased glucose levels).
IV
Ziehl-Neelsen (ZN) stains were positive for 12 (15.4%) samples, and MTB was cultured from 19
samples (24.4%). Our optimized PCR and HRM method was able to detect M. tuberculosis in
17 of the 19 culture positive specimens with a sensitivity of 89.5% and a specificity of 62.7%.
The sensitivity of this method was higher than that of direct microscopy. In all of the PCR
positive samples, the time to detection, compared to culture, could be shortened by 1 to 2
weeks.
Only one sample was positive for Cryptococcus culture and another sample was positive with a
Cryptococcus latex test. PCR for Cryptococcus was positive in 2 cases (n=78), sensitivities and
specificities could not be reported due to the low number of positive cases.
CONCLUSION
We demonstrated that a short culture period and the use of commercial DNA extraction kit on
CSF samples increases the sensitivity of molecular tests to diagnose tuberculosis.
Furthermore, the molecular techniques could significantly reduce the time to positivity of
results, when compared to culture. Due to the low occurrence of Cryptococcus in the samples
included in our study, we could not comment on the diagnostic utility of PCR in the diagnosis of
Cryptococcal meningitis, when compared to the conventional methods. / AFRIKAANSE OPSOMMING: INLEIDING
Mycobacterium tuberculosis (MTB) en Cryptococcus neoformans is die mees algemeenste
oorsake van kroniese meningitis in Suid-Afrika. Routine mikroskopie dra beperkte waarde in die
diagnose van hierdie patogene as gevolg van die klein hoeveelhede organismes wat in die
SSV (serobrospinale vog) voorkom en die lang tyd wat dit benodig om hierdie organisms te
kweek. Hierdie studie beoog om die diagnostiese waarde van ‘n polymerase ketting reaksie
(PKR) metode wat intern ontwerp is te evalueer vir die identifikasie van patogene
verantwoordelik vir kroniese meningitis.
METODES
SSV monsters (waarvan die volume 5ml oorskry) en waar daar ‘n kliniese vermoede van
tuberkulose meningitis (TBM) was, is na die diagnostiese Mediese Mikrobiologie laboratorium
van Tygerberg hospitaal gestuur vir roetine bakteriologiese ontleding. Die oorblywende
monsters is gebruik om twee mikobakteriële groei-indikasiebuise (MGIT A en B) te innokuleer
en hulle is geïnkubeer in ‘n BACTEC 960 geautomatiseerde sisteem. MGIT A is volgens roetine
diagnostiese metodes geanaliseer en die tyd tot ‘n positiewe resultaat is aangeteken
Weeklikse monsters (tot en met week 6) is uit MGIT B verwyder en die monsters is gekook om
sodoende die bakterië te inaktiveer. Die Promega Wizard SV Genomiese DNS
ekstraksiemetode is gebruik om die DNS te versuiwer. Spesiëring van die DNS is deur middel
van ‘n intern ontwerpte PKR en hoëresolusiesmeltingsmetode (HRS) gedoen met inleiers wat
spesifiek is tot die RD9 gedeelte van die MTB kompleks en inleiers spesifiek tot die
gedeeltelike interne getranskribeerde spasieerder 1 (ITS1), 5.8S rRNS geen en die
gedeeltelike ITS2 DNS volgorde van C. neoformans.
VI
RESULTATE
Roetine SSV mikroskopie het aangedui dat 14 uit 78 (17.9%) pasiënte tipiese SSV bevindings
van TBM (oorwegend limfosiete, verhoogde proteïene en verlaagde glukose) gehad het. Ziehl-
Neelsen (ZN) kleurings was positief vir 12 (15.4%) monsters, en MTB is gekweek in 19 (24.4%)
van hierdie monsters. Ons geoptimaliseerde PKR en HRS metode het daarin geslaag om M.
tuberculosis in 17 van die 19 kultuurpositiewe monsters aan te toon met ‘n sensitiviteit van
89.5% en ‘n spesifisitiet van 62.7%. Die sensitiwiteit van die direkte PKR was hoër in
vergelyking met mikroskopie. In al die PKR positiewe monsters was die tyd tot aantoning, in
vergelyking met kultuur, verkort met 1 tot 2 weke.
Slegs een monster het C. neoformans gekweek en ‘n ander monster was positief met die
kriptokokkale latekstoets. PKR vir C. neoformans was positief in 2 gevalle (n=78). Die
sensitiwiteit en spesifisiteit van die C. neoformans PKR kon nie bepaal word nie weens te min
gevalle.
GEVOLGTREKKINGS
Ons het aangetoon dat ‘n verkorte inkubasieperiode en die gebruik van ‘n kommersiële DNS
ekstraksiemetode op SSV monsters die sensitiwiteit van die molekulêre tegniek vir die
diagnose van tuberkulose verhoog en dat hierdie metode die tyd na positiwiteit aansienlik
verkort in vergelyking met kultuur. Weens die lae getalle van kriptokokkale meningitis in ons
studie kon ons nie kommentaar lewer op die akkuraatheid van PKR in die diagnose van
kriptokokkale meningitis, in vergelyking met meer konvensionele metodes, nie.

Links & Downloads

1. http://hdl.handle.net/10019.1/4110

Tags

Chronic meningitis

Laboratory techniques

Dissertations -- Medicine

Theses -- Medicine

Cerebrospinal fluid -- Examination

Cryptococcus neoformans -- Examination

Meningitis

Pathology

Medical Microbiology

Additional Fields

Identifer	oai:union.ndltd.org:netd.ac.za/oai:union.ndltd.org:sun/oai:scholar.sun.ac.za:10019.1/4110
Date	03 1900
Creators	Prince, Yvonne
Contributors	Wasserman, Elizabeth, Warren, Rob, University of Stellenbosch. Faculty of Health Sciences. Dept. of Pathology. Medical Microbiology.
Publisher	Stellenbosch : University of Stellenbosch
Source Sets	South African National ETD Portal
Language	English
Detected Language	English
Type	Thesis
Format	xviii, 91 p. : ill.
Rights	University of Stellenbosch