Spelling suggestions: "subject:"mycobacterium tuberculosis diagnosis"" "subject:"mycobacterium tuberculosis adiagnosis""
1 |
Rapid diagnosis of isoniazid resistant mycobacterium tuberculosis by high resolution melting (HRM) assayChan, Ming-yan, 陳明恩 January 2012 (has links)
Mycobacterium tuberculosis (MTB) is a major infective agent causing human tuberculosis (TB) in the worldwide. Although tuberculosis can be treated by a six-month course of antibiotics, the prevalence of extensively drug-resistance TB (XDR-TB) made the disease becomes a global health problem. In addition to the conventional MTB detection methods, molecular methods become significant in drug resistant MTB detection which can enhance effective drug treatment.
In this study, 200 MTB respiratory specimens were collected from patients with suspected tuberculosis in Tuen Mun Hospital in Hong Kong. Based on the culture method as a gold standard for MTB detection, the presence of MTB in clinical samples was determined by IS6110single tube nested real-time PCR. In addition, by using High Resolution Melting (HRM) analysis, the presence of mutant type KatG315 gene for detecting isoniazid resistant MTB was determined.
Among 66 MTB culture positive samples, 10 samples had positive acid fast bacilli (AFB) smears giving the diagnostic sensitivity 15.1%. IS6110 single tube nested PCR was amplified in 51 specimens giving 77.2% MTB detection sensitivity and 97.8% specificity. Among 51 samples positive for IS6110 PCR, 66.7% showed successful amplification in subsequent KatG-HRM assay. Two samples were confirmed to be isoniazid (INH) resistance in Public Health Laboratory Centre (PHLC). However, there was only one sample showing detectable KatG315 mutation in clinical specimen by using HRM while the other was only detected in the corresponding culture isolate.
From the result of this study, single tube nested real-time PCR demonstrated MTB detection in clinical samples and INH resistant strain with KatG315mutationcan be detected by HRM analysis. Early detection of mycobacteria allow earlier treatment of the patient, thus transmission of the disease can be controlled. / published_or_final_version / Microbiology / Master / Master of Medical Sciences
|
2 |
Molecular characterization of isoniazid-resistant mycobacterium tuberculosis in Hong KongWoo, Wai-lan., 胡慧蘭. January 2005 (has links)
published_or_final_version / Medical Sciences / Master / Master of Medical Sciences
|
3 |
Comparison of molecular epidemiological study on Mycobacterium tuberculosis using IS6110 RFLP and IS6110 PCR typing陳子明, Chan, Tsz-ming. January 2000 (has links)
published_or_final_version / Medical Sciences / Master / Master of Medical Sciences
|
4 |
Modified chitosan nano-substrates for mycobacterial captureFortuin, Lisa 12 1900 (has links)
Thesis (MSc)--Stellenbosch University, 2016. / ENGLISH ABSTRACT: Tuberculosis (TB) is one of the world’s deadliest diseases, with one third of the population being infected by it. The diagnosis of active tuberculosis entails finding and identifying Mycobacterium tuberculosis (Mtb), the causative pathogen in a specimen of bodily fluid from the patient. Multiple samples will improve the diagnostic yield and specimen volumes should therefore be as large as possible, which is often challenging for patients and especially younger children. Alternatively, a smaller volume could be required if there was a manner in which to concentrate the bacteria within a specimen, through use of a substrate which has an affinity for the pathogenic species. Polymers having intrinsic cellular activity are of interest as such substrates, one such being the natural polysaccharide, chitosan. In this thesis, a variety of modified chitosan derivatives were prepared as potential Mtb-capturing substrates. This was achieved by modifying chitosan with a variety of moieties, selected based on possible interactions with the Mtb cell wall, to render various quaternary ammonium salts of the polymer chitosan. The quaternized chitosan derivatives were then used to synthesize nano-substrates having an affinity for Mtb. Polymer coated superparamagnetic magnetite nanoparticles (SPMNs) were synthesized via an in situ co-precipitation technique, in which modified chitosan is able to chelate with the metal core. Polymer nanofibers were also electrospun via the electrospinning technique. The prepared derivative, N-trimethylammonium chitosan chloride (TMC), was electrospun into nanofibers by blending with suitable non-ionogenic polymers, namely polyvinyl alcohol (PVA), polyethylene oxide (PEO), polyvinyl pyrrolidone (PVP) and polyacrylamide (PAM), required to facilitate nanofiber formation. Affinity studies were conducted between the modified chitosan nano-substrates and the bacillus Calmette-Guérin (BCG) strain of Mycobacterium bovis, the attenuated Mtb-mimic bacteria, for evaluation as mycobacterium capturing substrates. The successful capture of BCG onto the surfaces of the various modified chitosan nanofibers and modified chitosan coated superparamagnetic nanoparticles was confirmed by fluorescence microscopy (FM), light microscopy (LM), transmission electron microscopy (TEM) and field emission scanning electron microscopy (FE-SEM). Analysis of the FM, TEM and FE-SEM images indicated that the chitosan coated nanoparticles functionalized with a C12 aliphatic quaternary ammonium moiety (CS-qC12), captured the most BCG through a combination of ionic and hydrophobic interaction. TMC blended with PVA, to produce nanofibers crosslinked with genipin, were found to have the strongest interaction with BCG of the nanofibrous mats tested. These findings were corroborated by water contact angle measurements, which established that PVA was the least hydrophilic of the non-ionogenic polymers and had hydrogen bond donating groups only, factors influencing the cellular adhesive properties of affinity substrates. / AFRIKAANSE OPSOMMING: Tuberkulose (TB) is een van die wêreld se mees dodelikste siektes, met ‘n derde van die bevolking wat geïnfekteer is daarmee. Ten einde aktiewe TB te diagnoseer moet Mycobacterium tuberculosis (Mtb), die voorsakende patogeen in ʼn monster van die pasiënt se liggaamlike vloeistof, gevind en ïdentifiseer word. Veelvuldige monsters sal die diagnotiese opbrengs verhoog en monster volumes moet dus so groot as moontlik wees wat dikwels ʼn uitdaging vir pasiënte en veral jonger kinders kan bied. Alternatiewelik kan ʼn kleiner monster van die pasiënt vereis word indien daar ʼn manier was om die bakterieë in ʼn monster te konsentreer deur die gebruik van ʼn substraat wat ʼn affiniteit toon vir die patogeniese spesie. Polimere met ʼn intrinsieke sellulêre aktiwiteit, wek belangstelling as sodanige substraat, een synde die natuurlike polisakkaried, chitosan. In hierdie tesis is ʼn verskeidenheid gemodifiseerde chitosan afgeleides voorberei as potensiële Mtb-vaslegging substrate. Dit is gedoen deur chitosan te modifiseer met ʼn verskeidenheid funksionele groepe, gekies op grond van moontlike interaksies met die Mtb selwand, ten einde ʼn verskeidenheid kwaternêre ammonium soute van die chitosan polimeer te bekom. Die kwaternêre chitosan afgeleides is gevolglik gebruik om nano-substrate te sintetiseer wat ʼn affiniteit toon vir Mtb. Polimeer bedekte superparamagnetiese magnetiet nanopartikels (SPMNs) is gesintetiseer via ʼn in situ mede-neerslag metode, waarvolgens die gemodifiseerde chitosan polimere in staat is om met die metaal kern te chelaat. Polimeer nanovesels is ook geëlektrospin deur die elektrospin tegniek te gebruik. Die voorbereide afgeleide N-trimetielammonium chitosan chloried (TMC) is tot nanovesels geëlektrospin deur vermenging met geskikte nie-ionogeniese polimere, naamlik poliviniel-alkohol (PVA), polietilene-oksied (PEO), poliviniel-pirrolidoon (PVP) en poliakrielamied (PAM), wat vereis word ten einde nanovesels te produseer. Affiniteit studies is uitgevoer tussen die gemodifiseerde chitosan nano-substrate en die bacillus Calmette-Guérin (BCG) stam van Mycobacterium bovis, die verswakte Mtb-mimiek bakterieë vir evaluering as mycobakterium-vaslegging substrate. Die suksesvolle vasvang van BCG op die oppervlaktes van die verskillende gemodifiseerde chitosan nanovesels en gemodifiseerde chitosan bedekte SPMNs is bevestig deur fluoressensie mikroskopie (FM), lig mikroskopie (LM), transmissie elektron mikroskopie (TEM) en veld-emissie-skandering elektron mikroskopie (FE-SEM). Analise van die FM, TEM en FE-SEM beelde het getoon dat die chitosan bedekte nanopartikels met byvoeging van ʼn C12 alifatiese kwaternêre ammonium groep, die meeste BCG vasgevang het deur ʼn kombinasie van ioniese en hidrofobiese interaksie. TMC vermeng met PVA om nanovesels te vorm, gekruisbind met genipin, is gevind om die sterkste interaksie met BCG te toon. Hierdie bevindings is bevestig deur water-kontak-hoek-metings, wat getoon het dat PVA die minste hidrofilies van die nie-ionogeniese polimere was en slegs waterstof-binding skenkings groepe het, alles faktore wat die sellulêre bindingskwaliteite van affiniteit-substrate sal beïnvloed.
|
5 |
Molecular characterisation of Mycobacterium Tuberculosis, clinical isolates obtained in the Khomas region, Windhoek, NamibiaBreuer, Evelyn Ndinelao January 2017 (has links)
Thesis (MSc (Biomedical Technology))--Cape Peninsula University of Technology, 2017. / According to the Namibia National Tuberculosis Control Programme (NTCP) report of 2008, Namibia has one of the highest TB infection rates in the world with a case notification rate of 748/100,000. Rapid, specific and sensitive diagnosis of Mycobacterium tuberculosis (MTB) is needed for correct TB patient management. One of the aims of this study was thus to compare direct microscopy with two rapid molecular diagnostic tools (viz. GeneXpert MTB/RIF and Hain Genotype® MTBDR plus assay) for the identification of MTB from samples collected from the Khomas Region, Windhoek, Namibia. Only patients with positive TB sputum collected at the clinics and health facilities in the Khomas Region, Windhoek were eligible for the study. Three hundred and eighty-four samples were confirmed acid-fast positive by utilising the auramine staining method. The rifampicin (RIF) resistance profile detected by both molecular techniques was then compared for characterisation of the samples as drug resistant. Lastly, participants completed a survey, which included questions related to demographic and epidemiological data. Demographic data included patient age, gender, region of residence and history of treatment. The data was collected using a structured questionnaire and was captured in an Excel spreadsheet. It was then imported into Statistical Package for Social Sciences (SPSS) Version 25 for data analysis. A memorandum of understanding was also signed with the Namibia Institute of Pathology (NIP) to obtain permission to use their samples and the equipment at their site.
|
6 |
Utilization of antigen-specific host responses in the evaluation of Mycobacterium tuberculosis infection, development of disease and treatment effectMenezes, Angela Maria 03 1900 (has links)
Thesis (MScMedSc)--Stellenbosch University, 2013. / ENGLISH ABSTRACT: Setting
This study was conducted in the Tygerberg district, Cape Town, in the Western Cape, South Africa
Background
The evaluation of early tuberculosis (TB) treatment response is based on month 2 sputum culture status. This method of evaluation has a number of limitations: the test requires relatively advanced laboratory infrastructure and procedures, it takes several weeks to obtain results and is a relatively a poor marker at predicting treatment response. The discovery of potential host markers which reflect the efficacy of early treatment would be of great importance for clinical management of individual patients. The treatment failure would be detectable earlier than at week 8 of treatment. The duration of clinical trials of new anti-tuberculosis drugs may also be substantially reduced by such markers if these would be measurable earlier than at week 8 of therapy.
Objectives
1) To evaluate diluted, 7-day whole blood cultures stimulated with live Mycobacterium tuberculosis (M.tb) for the presence of host markers of early TB treatment response
2) To evaluate an overnight, undiluted, M.tb antigen stimulated whole blood culture Quantiferon Gold In Tube (QFT-GIT) supernatants for host markers of early TB treatment response
The study designs were as follows:
In study one, baseline samples and samples from week 1, week 2 and week 4 of treatment from 30 cured TB patients were selected from a larger biomarker study, in which whole blood was stimulated with live M.tb or left unstimulated. Fifty seven host markers were measured in supernatants by multiplex cytokine arrays.
In study two, baseline samples and samples from week 2 and week 8 of treatment from 19 cured TB patients were randomly selected from the placebo group in a micronutrient supplement study. QFT-GIT supernatants from these participants were assessed through multiplex cytokine arrays for levels of fifty seven host markers. All of the participants in both studies were Human Immunodeficiency Virus (HIV) negative.
Changes in marker expression over time and between fast and slow responders to treatment were evaluated. Comparability between the two culture methods was assessed for markers that were evaluated in both studies.
Results
In study one, the majority of host markers showed significant changes over time in the unstimulated supernatants. Only GRO and IL-1beta changed significantly in an antigen-specific manner (background levels subtracted). No significant changes were observed between fast and slow responders.
In study two, the majority of host markers showed significant changes over time in the unstimulated supernatants whereas only MDC and IL-4 changed during the observation period in antigen stimulated levels. Significant differences were observed between fast and slow responders at pre-treatment for IL-13 Ag-Nil and IL-1betaAg-Nil .
Conclusion
This study revealed, antigen-specific responses showed only limited potential for early TB treatment response monitoring, but may have potential in differentiating between treatment outcomes. Future investigations may have to include later time points during treatment as these were not included in the present assessment. The QFT-GIT samples do not appear to be equivalent to live M.tb stimulated 7-day whole blood assays. / AFRIKAANSE OPSOMMING: Instelling
Die studie is uitgevoer in die Tygerbergdistrik, Kaapstad, Wes-Kaap, Suid-Afrika.
Agtergrond
Die evaluering van die respons op vroeë tuberkulose (TB) behandeling word gebaseer op die status van maand 2 sputum kulture. Hierdie evalueringsmetode het ‘n paar beperkinge: die toets benodig relatief gevorderde laboratorium infrastruktuur en prosedures, die toetsuitslae is eers na ‘n paar weke beskikbaar en dit is n relatiewe swak merker om repons op behandeling te voorspel. Die ontdekking van potensiële selfmerkers wat die doeltreffendheid van vroeë behandeling weerspieël sal van groot belang wees vir die kliniese bestuur van individuele pasiënte. Mislukking van die behandeling sal sodoende voor week 8 van behandeling waargeneem kan word. Die tydsduur van kliniese proewe van nuwe anti-tuberkulose medikasie mag ook baie verkort word met sulke merkers as dit voor week 8 van behandeling gemeet kan word.
Doelwitte
1) Om verdunde, 7-dae oue volbloedkulture, met lewende Mikobakterium tuberkulosis (M.tb) gestimuleer, te evalueer vir die teenwoordigheid van vroeë TB behandeling respons selfmerkers.
2) Om die supernatant van oornag, onverdunde, M.tb antigeen gestimuleerde volbloedkulture Quantiferon Gold In Tube (QFT-GIT) vir vroeë behandeling respons selfmerkers te evalueer.
Die studie-ontwerpe was soos volg:
Met studie een is basislynmonsters en monsters verkry na week 1, week 2 en week 4 van behandeling van 30 geneesde TB-pasiënte geselekteer uit ‘n groter biomerkerstudie waarin die volbloed met lewende M.tb gestimuleer is of ongestimuleer gelaat is. Sewe-en-vyftig selfmerkers is in die supernatante gemeet deur middel van multipleks sitokine arrays.
Met studie twee is basislynmonsters en monsters verkry na week 2 en week 8 van behandeling van 19 geneesde TB-pasiënte lukraak uit die plasebo-groep in ‘n mikrovoedingstowwe-aanvullingstudie geselekteer. Vlakke van 57 selfmerkers is in die QFT-GIT supernatante van hierdie deelnemers, deur middel van die multipleks sitokine arrays, bepaal. Al die deelnemers van beide studies was HIV negatief.
Veranderinge in merker-uitdrukking oor tyd, asook tussen vinnige en stadige respons tot behandeling, is ge-evalueer. Die vergelykbaarheid van die twee kultuurmetodes is geassesseer ten opsigte van die ge-evalueerde merkers in albei studies.
Resultate
Met studie een het die meerderheid van die selfmerkers in die ongestimuleerde supernatante kenmerkende verandering oor tyd gewys. Slegs GRO en IL-1beta het aansienlik verander in die antigeenspesifieke wyse (agtergrond vlakke afgetrek). Geen kenmerkende veranderinge was waargeneem tussen die vinnige en stadige respons pasiënte nie.
Met studie twee het die meerderheid van die selfmerkers aansienlike veranderinge oor tyd in die ongestimuleerde supernatante gewys, in vergelyking waar net die MDC en IL-4 veranderinge gedurende die observasie periode in antigeen gestimuleerde vlakke getoon het. Kenmerkende verskille is tussen die vinnige en stadige respons pasiënte in voorbehandeling vir IL-13 Ag-Nil en IL-1betaAg-Nil waargeneem.
Gevolgtrekking
Die studie bewys dat antigeenspesifieke response slegs beperkte potensiaal vir vroeë TB behandeling respons monitering het, maar mag die potensiaall vir onderskeidende behandeling uitkomste hê. Toekomstige ondersoeke sal dalk latere tydpunte gedurende die behandeling moet insluit aangesien dit nie in hierdie evaluasie ingesluit is nie. Die QFT-IT monsters verskyn nie as gelykwaardig met die lewendig M.tb gestimuleerde 7-dae volbloed toetse nie.
|
7 |
The molecular epidemiology of mycobacterium tuberculosis : role in understanding disease dynamics in high prevalence settings in Southern Africa regionChihota, Violet 03 1900 (has links)
Thesis (PhD)--University of Stellenbosch, 2011. / ENGLISH ABSTRACT: The tuberculosis (TB) incidence has increased in Southern Africa and the situation
is worsened by the emergence of drug-resistant Mycobacterium tuberculosis strains.
Molecular biological techniques have been used to understand the disease dynamics of
TB. In a series of studies we describe the use of these techniques to understand the
disease dynamics of TB in Southern Africa.
Using spoligotyping and IS6110-restriction fragment length polymorphism (RFLP) to
characterize M. tuberculosis strains from TB patients in Zimbabwe, we identified a
genotype causing a disproportionate number of TB cases. The genotype belonged to the
Latin American Mediterranean (LAM) lineage and we named it the Southern Africa1
(SAF1) family and later renamed it SAF1/RDRio, also reflecting its predominance in
South America. To establish if this family of strains was predominant elsewhere in
Southern Africa, genotypes were compared to those from Western Cape, South Africa
and Zambia. The SAF1/RDRio strains were highly prevalent in Zambia but were only a
minor fraction of the strains in South Africa. The geographical distribution of
SAF1/RDRio strains was determined in Gweru, Zimbabwe, and was found to be spread in
high incidence areas. From these two studies it was hypothesized that certain host and
bacterial factors were associated with disease due to SAF1/RDRio.
Subsequently potential risk factors and clinical outcomes of disease due to SAF1/RDRio
strains were explored. An association was found with smoking and cavitary pulmonary
disease suggesting that SAF1/RDRio caused a more severe and highly transmissible
formof TB Using IS6110-RFLP, principal genetic grouping, spoligotyping, IS6110 insertion-site
mapping and variable-number tandem repeats (VNTR) typing, low IS6110 copy clade
(LCC) identified in Zimbabwe were characterized and compared to the strains from Cape
Town, South Africa and other regions. The LCC strains from Cape Town, South Africa,
were found to have close evolutionary relationship with strains from Zimbabwe and other
regions and were widely distributed suggesting they play an important role in the global
TB epidemic.
Observations from these studies and those from other studies led to the hypothesis that
specific genotypes of M. tuberculosis predominate in regions of Southern Africa. To gain
an insight on the population structure of M. tuberculosis strains in Southern Africa,
spoligotyping and/or IS6110-RFLP data from eight countries were compared. This is the
first study to describe the M. tuberculosis population structure in Southern Africa.
Distinct genotypes were associated with specific geographic regions. These findings have
important implications for TB diagnostics, anti-TB drug and vaccine development.
The population structure of multidrug-resistant (MDR), pre-extensively drug-resistant
(pre-XDR) and extensively drug-resistant (XDR) M. tuberculosis isolates from provinces
in South Africa was also determined. This is again the first study to describe the
population structure of drug-resistant M. tuberculosis in South Africa. The results also
showed geographic localization of genotypes and an association with resistance class.
However, decreasing strain diversity was observed as the isolates evolved from MDR-TB
to XDR-TB suggesting selection for the specific genotypes. These findings highlight the importance of identifying genetic markers in drug-resistant strains, to enhance early
detection of those at risk of developing XDR-TB. / AFIKAANSE OPSOMMING: Die voorkoms van tuberkulose (TB) in Suider Afrika word vererger deur stamme van
Mycobacterium tuberculosis wat weerstandig is teen die beskikbare anti-tuberkulose
middels. Molekulêre tegnieke word gebruik om in hierdie reeks studies die dinamika van
TB in Suider Afrika te ondersoek
Deur spoligotipering en IS6110 restriksie fragment lengte polimorfisme (RFLP) tegnieke
te gebruik om M. tuberculosis stamme van pasiente in Zimbabwe te beskryf, het ons ‘n
genotipe gevind wat ‘n buitengewone aantal TB gevalle veroorsaak het. Hierdie genotipe
is deel van die internasionaal beskryfde Latyns Amerikaase en Meditereense (LAM) stam
familie. Ons het dit die Suider Afrikaanse Familie1 (SAF1) genoem, maar later hernoem
na SAF1/RDRio, omdat dieselfde genotipe in ook volop is in Suid Amerika. Om vas te stel
of hierdie familie ook oorheesend is in die res van Suider Afrika, is dit vergelyk met
beskikbare databasisse van die Wes-Kaap, Suid-Afrika en Zambië. Alhoewel
SAF1/RDRio in die Wes-Kaap gevind is, dra dit slegs tot ‘n mindere mate by tot die
plaaslike TB epidemie. Aan die anderkant kom SAF1/RDRio baie algemeen in Zambië
voor. ‘n Verdere studie wys ook dat die SAF1/RDRio familie eweredig en wyd verspreid
voorkom in hoë insidensie gebiede in Gweru, Zimbabwe. Vanuit die bevindings van
hierdie 2 studies, kan ons aflei dat sekere gasheer- en bakteriële eienskappe geassosieer is
met SAF1/RDRio-TB-infeksie.
Hierna is potensiële risiko faktore en kliniese uitkomste van siekte as gevolg van infeksie
met SAF1/RDRio ondersoek. ‘n Assosiasie met rook en kaviterende pulmonale infeksie is gevind,wat daarop dui dat SAF1/RDRio erger vorm van TB veroorsaak en hoogs
oordraagbaar is.
Deur gebruik te maak van IS6110- (RFLP), hoof groep groepering, spoligotipering,
IS6110 invoegings kaartering en veranderlike getal tandem herhaling (VNTR) tipering
kon lae IS6110 invoeginsgetal (LCC) stamme van Kaapstad, Zimbabwe en ander gebiede
vergelyk word. Al die LCC stamme in die studie is evolusionêr naby verwant aan mekaar
en is wyd verspreid, wat dui op hulle belangrike rol in die wêreldwye TB epidemie.
Waarnemings in hierdie asook ander studies het tot die hipotese gely dat spesifieke
genotipes van M. tuberculosis dominant is in verskillende gebiede van Suider Afrika. Om
meer insig tot die populasie samestelling van M. tuberculosis stamme in Suider Afrika in
te win is spoligotipes en RFLP-data van 8 lande vergelyk. Hierdie is die eerste studie om
die populasie samestelling van M. tuberculosis in Suider Afrika te beskryf en is
belangrike fir toekomstige ontwikkeling van nuwe TB diagnose tegnieke, anti-TB
middels en TB entstowwe.
Die populasie samestelling van multiweerstandige (MDR), pre-ekstreme weerstandige
(pre-XDR) en ekstreme weerstandige (XDR) M. tuberculosis van verskillende provinsies
in Suid-Afrika is ook bepaal. Hierdie studie is ook die eerste wat die populasie
samestelling van weerstandige M. tuberculosis in Suid-Afrika beskryf. Die resultate wys
geografiese lokalisering van genotipes en ‘n assosiasie met weerstandigheidsklas. ‘n
Afname in stam diversiteit soos die isolate van MDR-TB tot XDR-TB ontwikkel, dui op seleksie van spesifieke genotipes. Hierdie bevinding lê die klem op die belangrikheid van
die identifisering van genetiese merkers in weerstandige stamme om die risiko vir die
ontwikkeling van XDR-TB te verminder deur vroë deteksie.
|
8 |
Improving methods for genotypic drug resistance testing in Mycobacterium tuberculosisMlamla, Zandile Cleopatra 03 1900 (has links)
Thesis (MScMedSc)--University of Stellenbosch, 2011. / ENGLISH ABSTRACT: An important next step to Tuberculosis control relies on the translation of basic science and modern diagnostic techniques into primary health care clinics. These assays must be rapid, inexpensive, interpretation of results must be easy and they must be simple so that a healthcare worker with limited training can perform the tests under safe conditions. This study consists of four aims. The first aim was to develop a methodology to sterilize sputum specimens for rapid TB diagnosis and drug resistance testing. Candidate bactericides were identified from the literature, and tested for their bactericidal activity in Mycobacterium tuberculosis. We identified ultraseptin®aktiv as a powerful bactericidal agent which sterilizes sputum specimens for subsequent safe handling prior to light emitting diode microscopy and it also provides a DNA template for PCR-based tests. An algorithm has been proposed for the processing of specimens and rapid diagnosis of TB and drug resistant TB while patients wait for results.
Recently, the World Health Organization has endorsed the MTBDRplus test for diagnosis of TB and drug resistant TB. However genotypic tests may have more problems than anticipated. With the HIV pandemic, an increase of non-tuberculous mycobacteria has been reported. The sensitivity of genotypic tests in specimens with underlying non-tuberculous mycobacterial species therefore requires further evaluation. This study therefore also aimed at determining the reliability of the MTBDRplus assay for detection of drug resistant TB where non-tuberculous bacterial load is high. Clinically relevant non-tuberculous mycobacterium DNA and DNA from a multi-drug resistant TB isolate were obtained. Ratios of the different NTM with the MDR-TB DNA were made and subjected to the MTBDRplus assay. Known mix NTM and TB infected clinical isolates and sputum sediments were also evaluated for TB and drug resistance detection on the MTBDRplus assay. Under these conditions, this study provides evidence that the MTBDRplus test cannot reliably detect TB and drug resistance TB in specimens with underlying non-tuberculous mycobacteria.
Thirdly, to evaluate the sensitivity of the MTBDRplus assay for detecting drug resistance in hetero-resistant isolates, ratios were made using purified DNA from an MDR and pan-susceptible TB isolate. The MTBDRplus assay was then performed on the different ratios. We report that the MTBDRplus assay can efficiently detect wild type DNA in genes associated with resistance during the early evolution of drug resistance. However, in the later stage during treatment when both the wild type and mutants are present, the detection limit for the mutant DNA was 1:55. Due to these results, the MTBDRplus assay should still be further improved or other tests should be developed to address these limitations.
And finally to combat cross amplicon contamination during the final steps of genotypic detection with the MTBDRplus assay, a proof of concept for a patentable closed tube line probe device was proposed on the 4th aim. This device can be improved to enable automated drug resistance genotyping of multiple specimens.
The results of this study highlight the need for a sensitive inexpensive point of care drug resistance test that does not require intensive training. / AFRIKAANSE OPSOMMING: 'n Belangrike volgende stap om Tuberkulose te beheer is om basiese wetenskap resultate te gebruik sodat moderne diagnose tegnieke ontwikkel kan word wat in primêre gesondheidsorg klinieke toegepas kan word. Hierdie toetse moet vinnig, goedkoop, en die interpretasie van resultate moet maklik wees. Die toetse moet eenvoudig wees sodat 'n gesondheidswerker met beperkte opleiding die toetse onder veilige omstandighede kan uitvoer. Hierdie studie bestaan uit vier doelwitte, waarvan die eerste was om 'n metode te ontwikkel vir die sterilisasie van sputum monsters vir vinnige TB diagnose en die toesting van middelweerstandigheid. Kandidaat kiemdodende middels was geïdentifiseer vanaf die literatuur en die middels se kiekdodende aktiviteit was getoets op Mycobacterium tuberculosis. Ons het ultraseptin®aktiv geïdentifiseer as 'n kragtige kiemdodende middel wat bakteria in sputum monsters steriliseer vir veilige hantering voordat diagnose met 'n lig uitstralende diode mikroskopie gedoen kan word. Hierdie behandeling met ultraseptin®aktiv bied ook 'n DNA templaat vir PCR-gebaseerde toetse. 'n Algoritme is voorgestel vir die hantering van monsters en die vinnige diagnose van sensitiewe- en middel weerstandige Tuberkulose terwyl die pasiënte by die kliniek wag vir die resultate.
Onlangs het die Wêreld Gesondheid Organisasie die genotipiese MTBDRplus toets vir die diagnose van Tuberkulose en middel-weerstandige Tuberkulose onderskryf. Hierdie toets word tans op groot skaal in Suid Afrika gebruik. Dit kan egter wees dat genotipiese toetse baie meer probleme kan he as wat aanvanklik verwag is. Die HIV pandemie gaan toenemend gepaard met n toename van nie-tuberkulose mycobacteria. Die sensitiwiteit van genotipiese toetse op monsters met onderliggende nie-tuberkulose mikobakteriese spesies vereis dus verdere evaluasie. Die doel van hierdie studie was ook om die betroubaarheid van die MTBDRplus-toets te bepaal vir die opsporing van middelweerstandige TB waar die nie-tuberkulose bakteriële lading hoog is. DNA van kliniese relevante nie-tuberkulose mikobakteria en multi-middelweerstige TB isolate was bekom. Verskillende verdunnigs van die spesifieke NTM DNA te same met die van MDR-TB DNA is gemaak en onderwerp aan die MTBDRplus toets. Bekende gemengde NTM- en TB geïnfekteerde kliniese isolate en sputum sedimente was ook geevalueer vir die opsporing van TB en middel weerstandigheid met die MTBDRplus toets. Hierdie studie verskaf bewyse dat die
MTBDRplus toets nie betroubaar is met die diagnose van sensitiewe- en middel weerstandige Tuberkulose in monsters met onderliggende nie-tuberkulose mycobacteria nie.
Verskillende verdunnings van gesuiwerde DNA van MDR en pan-sensitiewe TB isolate is gemaak om die sensitiwiteit van die MTBDRplus toets vir die opsporing van middelweerstandigheid te bepaal. Die MDRDRplus toets is gebruik met hierdie verdunnings. Resultate in hierdie studie toon dat die MTBDRplus toets effektief is met die identifisering van wilde-tipe DNA (dit beteken middel sensitief) in gene wat geassosieer word met middel weerstandigheid gedurende die vroeë ontwikkeling van weerstandigheid. Hier teenoor toon die resultate dat in die later stadium tydens behandeling, wanneer beide die wilde-tipe (sensitief) en mutante DNA (weerstandig) teenwoordig is, is die opsporingslimiet vir die mutante DNA maar 1:55. As gevolg van hierdie resultate raai ons aan dat die MTBDRplus toets nog verder verbeter moet word of dat ander toetse ontwikkel moet word om hierdie beperkinge aan te spreek.
Amplikon kruiskontaminasie kan n groot impak hê op die betroubaarheid van enige genotipiese diagnostiese toets. Die finale stappe van MTBDRplus toets behels die gebruik van 'n oop sisteem sodat kontaminasie maklik kan plaasvind. In die 4de doewit 'n konsep vir 'n patenteerbare geslotebuis toestel ontwikkel en die resultate het getoon dat kontaminasie suksesvol uitgeskakel kan word. Hierdie toestel kan verbeter na 'n outomatiese apparaat verbeter word sodat die module genotipering van verskeie monsters moontlik kan maak.
Die resultate van hierdie studie beklemtoon die noodsaaklikheid van 'n sensitiewe goedkoop “point of care” diagnostiese toets wat nie intensiewe opleiding benodig nie. / Medical Research Council of South Africa / University of Stellenbosch, Dept. of Molecular Biology and Human Genetics
|
9 |
Imunohromatografski test u diferencijalnoj laboratorijskoj dijagnostici tuberkuloze pluća / Immunochromatographic test in differential laboratory diagnostic of tuberculosisSavković Tijana 01 April 2016 (has links)
<p>UVOD: Tuberkuloza je odavno poznata bolest koja i danas u 21. veku još uvek predstavlja veliki javnozdravstveni problem, uprkos primeni moćnih antituberkuloznih lekova. Trećina svetske populacije inficirana je bacilom tuberkuloze. Svake godine oboli oko osam miliona, a umre oko dva miliona ljudi, zbog čega je tuberkuloza i dalje infektivno oboljenje sa najvećom stopom smrtnosti. Kasna dijagnoza, multirezistentna tuberkuloza i udruženost sa HIV infekcijom predstavljaju jednu od najvećih prepreka za efikasnu kontrolu ove bolesti u svetu. Rano otkrivanje se oslanja na kvalitetnu bakteriološku dijagnostiku koja je kamen temeljac svakog nacionalnog programa za kontrolu tuberkuloze. Brza i tačna mikrobiološka dijagnostika predstavlja osnovu programa kontrole tuberkuloze i zbog toga je uvođenje novih i brzih laboratorijskih testova od veoma velikog značaja. Razvijen je novi komercijalno dostupni imunohromatografski test koji se zasniva na detekciji antigena MPT64 glavnog sekretovanog proteina M. tuberculosis. Test je brz i pouzdan u identifikaciji izolovanih sojeva M. tuberculosis i jeftiniji je od konvencionalnih biohemijskih i molekularnih testova. CILJ: Ciljevi istraživanja su bili da se evaluiraju karakteristike novog brzog imunohromatografskog testa u identifikaciji mikobakterija izolovanih iz respiratornih uzoraka bolesnika sa tuberkulozom pluća i referentnih sojeva klinički značajnih vrsta netuberkuloznih mikobakterija (NTM). MATERIJAL I METODE: Istraživanje je sprovedeno u periodu od 1.1.2010. do 31.12.2013. i obuhvatilo je 43563 respiratornih uzoraka dobijenih od bolesnika hospitalizovanih u Institutu za plućne bolesti Vojvodine. Iz obrađenih respiratornih uzoraka izolovano je 3469 izolata mikobakterija. Identifikacija do nivoa vrste urađena je primenom standardnih biohemijskih testova, molekularnog testa (GenoType® Mycobacterium) i imunohromatografskog testa (BDMGIT Tbc). U istraživanje je uključeno 100 sojeva Gram pozitivnih i Gram negativnih bakterija (n = 19 vrsta) izolovanih iz respiratornih kliničkih uzoraka. Identifikacija do nivoa vrste je potvrđena komercijalnim identifikacionim sistemima. REZULTATI: U toku četvorogodišnjeg istraživanja izolovano je 3469 izolata mikobakterija iz respiratornih uzoraka. U ispitivanom periodu ne postoji opadajući trend izolacije mikobakterija što potvrđuje i koeficijent korelacije (r = 0,31). Svi izolati mikobakterija su identifikovani konvencionalnim biohemijskim ispitivanjima koja pokazuju da je 89% od svih izolata identifikovano kao Mycobacterium tuberculosis (M. tuberculosis), a 11% izolata kao NTM. Mycobacterium xenopi je bila najzastupljenija NTM vrsta identifikovana kod 55,3% izolata. Nakon biohemijske identifikacije kod 300 izolata M. tuberculosis i 100 izolata NTM, identifikacija je potvrđena komercijalno dostupnim molekularnim i imunohromatografskim testom. Na osnovu rezultata testiranja mikobakterija imunohromatografskim testom, senzitivnost, specifičnost, pozitivne i negativne prediktivne vrednosti bile su: 99,7%, 100%, 100% i 99%. U poređenju imunohromatografskog testa sa konvencionalnim biohemijskim ispitivanjima nije nađena statistički značajna razlika (p> 0,5). Kappa vrednost testa je iznosila 0,993, a interval poverenja CI =0,98 – 1,00. U poređenju imunohromatografskog sa molekularnim testom vrednost kappa je iznosila 0,993, a interval poverenja CI = 0,98 – 1,00. Slaganje rezultata je potvrđeno i McNemar testom sa vrednošću 0,99. Utvrđena je stabilnost sekretovanog antigena MPT64 i posle 5 godina od prvog testiranja. ZAKLJUČAK: Visoka senzitivnost i specifičnost imunohromatografskog testa omogućuju tačnu i preciznu identifikaciju M. tuberculosis kao i pouzdanu diferencijaciju M.tuberculosis od NTM – a. Imunohromatografski test može da predstavlja zamenu za konvencionalne biohemijske i molekularne testove u identifikaciji M. tuberculosis. Jeftiniji je, jednostavniji za izvođenje i brže se dobijaju rezultati čime seskraćuje vreme za postavljanje dijagnoze.</p> / <p>INTRODUCTION: Tuberculosis (TB) has been known as a disease for a long time, but nevertheless it represents a major public health issue even nowadays in the 21st century, despite potent antituberculous drugs applied. One third of the world population is infected by the TB bacillus. About eight million people get infected and two million die of tuberculosis in a year, so tuberculosis is still an infectious disease with the greatest mortality rate. Late diagnosis, multiresistant tuberculosis and concomitant HIV infection interfere mostly with an efficient control of the disease all over the world. Early TB detection largely depends on the high-quality bacteriological diagnostics, which is the corner stone of each national TB control programme. A fast and accurate microbiological TB diagnosis plays a crucial role in any TB control programme. It is therefore very important to introduce new and fast laboratory tests. A novel commercially available immunochromatographic test has been designed, based on the MPT64 antigen of the major M. tuberculosis – secreted protein. This is a rapid and reliable test to identify the isolated strains of M. tuberculosis, which is not expensive as conventional biochemical and molecular tests. OBJECTIVE: The objective of the investigation was to evaluate the new immunochromatographic rapid test to identify mycobacteria isolated from respiratory samples from pulmonary TB patients, and referential strains of clinically relevant species of nontuberculous mycobacteria (NTM). MATERIAL AND METHODS: The research was carried out in the period from 1st January, 2010 to 31st December, 2013. It included 43 563 respiratory samples obtained from the patients hospitalized in the Institute for Pulmonary Diseases of Vojvodina, Sremska Kamenica (Serbia). There were 3 469 mycobacterial isolates obtained from the processed respiratory samples. The species – level identification was performed by standard biochemical tests, the molecular test (GenoType®Mycobacterium), and the immunochromatographic test (BD MGIT Tbc). The study included one hundred (100) of Gram positive and Gram negative bacteria (n = 19 species) isolated from respiratory clinical samples. The species – level identification was confirmed by commercial identification systems. RESULTS: During the four – year investigation, 3 469 mycobacterial isolates were obtained from respiratory samples. No declining tendency of mycobacterial isolation was registered in the examined period, as confirmed by the correlation coefficient (r = 0.31). All mycobacterial isolates were identified by conventional biochemical tests showing that 89% of all isolates were identified as M. tuberculosis, and 11% of the isolates as NTM. Mycobacterium xenopi was the most common NTM species identified in 55.3% of the isolates. Following the biochemical identification in 300 M. tuberculosis isolates and 100 NTM isolates, the identification was confirmed by commercially available molecular and immunochromatographic tests. Based on immunochromatographic testing of mycobacteria, the sensitivity, specificity, positive and negative predictive values of the test were 99.7%, 100%, 100% and 99% respectively. There is no statistically significant difference (p> 0.5) when comparing features of immunochromatographic test with conventional biochemical assay. The kappa test value was 0.993, and the confidence interval CI = 0.98 – 1.00. Comparing the immunochromatographic with the molecular test, the kappa value was 0.993, and the confidence interval CI = 0.98 – 1.00. The congruence of the tests findings was also confirmed by the McNemar test, estimated to 0.99. The stability of the secreted MPT64 antigen was registered even five years after the first testing episode. CONCLUSION: The high sensitivity and specificity of the imunochromatographic test enable an accurate and precise identification of M. tuberculosis, as well as a reliable differentiation of M. tuberculosis from NTM. The immunochromatographic test may substitute conventional biochemical and molecular tests to identify M. tuberculosis. It is easier to perform and provides faster test results, thus reducing the time of establishing the diagnosis.</p>
|
Page generated in 0.1035 seconds