School of Pathology (ETDs)

Permanent URI for this communityhttps://hdl.handle.net/10539/38220

Browse

End date: 2023Subject: search.filters.subject.Tuberculosis (TB)

Search Results

Now showing 1 - 3 of 3
  • Thumbnail Image
    Item
    The usefulness of monocyte fluorescence as a biomarker of Tuberculosis infection at Chris Hani Baragwanath Academic Hospital
    (University of the Witwatersrand, Johannesburg, 2023-11) Moosa, Aamina Yunus; Vaughan, Jenifer; Hodkinson, Katherine
    Introduction: South Africa has the 5th highest burden of Tuberculosis (TB) as well as coinfection with Human immunodeficiency virus (HIV) worldwide. Routine laboratory methods have varying sensitivity and specificity. The Xpert MTB/RIF (GXPU) (Cepheid, Sunnyvale, CA), has lower sensitivity in sputum smear negative cases and poor quality sputum samples. A robust, non-sputum based, inexpensive biomarker of TB would be of value in such cases. Monocytes are the major leucocyte involved in the immune response to TB. The Sysmex haematology analysers (Sysmex, Kobe, Japan) measure monocyte activation via monocyte fluorescence (MO-Y). This study aimed to evaluate the MO-Y and other Sysmex extended differential parameters (EDPs) as biomarkers of TB infection in the local setting. Methods: The MO-Y and EDPs were retrieved from the analyser for 121 adult cases (56 with TB, 65 controls). Further information was obtained from the laboratory information system, including patient demographics and other laboratory results; TB culture, SARS-CoV-2 results, C-reactive protein level, HIV status, bone marrow biopsies and the cycle threshold (CT) values on positive GXPU analysis. The MO-Y, EDPs and full blood count (FBC) values were compared among patients with and without TB (HIV positive and negative). Statistical significance was assessed (P-value of <0.05). Results: The MO-Y did not show utility in identifying patients with TB. A sub-population of patients living with HIV (PLWH) with a CD4 <100 cells/ul showed significantly higher MO-Y levels, due to other opportunistic infections affecting monocytes. Neutrophil surface fluorescence (a marker of neutrophil activation), was significantly higher in PLWH and with concomitant TB infection, possibly due to immune activation, worse illness, or increased bacterial infection. Among the PLWH, those with TB had significantly lower CD4 counts, absolute lymphocyte counts and mean cell volume (MCV) values. The MCV (cut-off value 87 fL) showed the strongest diagnostic utility for discriminating PLWH with and without TB (AUC 0.79). Conclusion: The MO-Y is not a useful biomarker of TB, but is significantly elevated in PLWH with low CD4 counts. The MCV showed adequate discriminatory power for differentiating patients with and without TB, at a cut-off level of 87fL.
  • Thumbnail Image
    Item
    Development of a multiplex HIV/TB point-of-care diagnostic assay based on the microarray
    (University of the Witwatersrand, Johannesburg, 2023) Malatji, Kanyane Bridgett
    HIV/AIDS mortality is caused by opportunistic illnesses/infections that take advantage ofthe weakened immune system in infected individuals. In Africa, the most common of these opportunistic illnesses include infection by Mycobacterium tuberculosis (M.tb) responsible for tuberculosis (TB). HIV co-infection with M.tb has negative implications for disease management given that each pathogen accelerates the morbidity caused by the other. The effective management of patients infected with both pathogens is restricted by the fact that their diagnosis is done separately. The situation is more difficult in remote areas where patients must wait for much longer to obtain their TB diagnostic results. In addition, the current diagnostic tests for the detection of TB such as chest X-ray and bacterial culture have a long turnaround time, are expensive to perform, and require sophisticated equipment and trained personnel. It is in this context that this project sought to develop an HIV and TB multiplex microarray-based assay for the detection of the two diseases using one test. The project used a 2.5 x 7.6 cm epoxy-coated glass slide as well as high- binding 96 well plates to which HIV-1 p24 and M.tb CFP10, ESAT6 and pstS1 antigens, known to be markers of active TB, were immobilized. The immobilized antigens were then incubated with anti-p24, anti-CFP10, anti-ESAT6 and anti-pstS1 primary antibodies diluted in human serum to mimic physiological conditions where the antibodies would exist in the presence of other proteins. Detection of binding between the antigens and primary antibodies was achieved by means of secondary antibodies conjugated to either a fluorescence dye or horseradish peroxidase (HRP). In chapter two of the study, the immobilization of the HIV and TB antigens on the epoxy-coated glass slides as capture molecules of the HIV and TB antibodies diluted in human serum was performed. The antigen-antibody reactions detection were achieved by means of fluorescence dye conjugated secondary antibodies. This chapter also covered the sensitivity and specificity of the technology where the epoxy-coated glass slides were compared to the gold standard 96 well high-binding plates. Data showed that the HIV and TB antigen-antibody reactions were specific, and the slides were more sensitive relative to the 96 well high-binding plates with limits of detection many folds lower. To be specific, the limit of detection from the slides averaged 0.954 ng/ml compared to 4474.6 ng/ml for the plates. The detection limit concentrations of the slides were lower than the reported physiological concentrations of HIV and TB antibodies in infected individuals. Chapter two also focused on the evaluation of the antigens’ stability on the epoxy-coated glass slides by determining the optimal experimental pH buffer, temperature, storage condition (dry or wet), as well as the shelf-life. Data showed that the optimal pH and temperature for the HIV and TB antigens immobilized on the slides were pH 7.4 and 25 ˚C. Moreover, the antigens could be stored dry for at least 90 days without losing their function. Overall, this chapter showed that the epoxy-coated microarray slides performed better than the gold standard 96 well high-binding plates in terms of sensitivity; and that the immobilized antigens could remain stable for a long period, and do not require specialized storage conditions; thus, making the microarray technology a potential diagnostic tool for the multiplex detection of HIV and TB in the case of co-infection. Chapter three of the study focused on the proof-of-concept of the technology using human serum samples infected with HIV. The chapter showed that the technology could detect p24 antibodies in six out of seven samples infected with HIV, i.e., it detected p24 antibodies in 85.7% of samples known to be HIV positive. Furthermore, HIV negative samples also proved to be negative with this technology, thus no false positives were observed. Moreover, the technology was specific for HIV detection as no binding was observed on TB antigens. Therefore, these data support what was observed in the previous chapter when the HIV antibodies were spiked in normal human serum. Chapter four explored the application of the diagnostic technology for the point-of-care (POC) detection of HIV and TB antigen- antibody reaction, using HRP conjugated secondary antibodies, as well as the 2,2′-azino- bis(3-ethylbenzothiazoline-6-sulfonicacid) (ABTS) and 3,3',5,5'-tetramethyl Benzidine (TMB) substrates for colour change based endpoint. This chapter also covered the sensitivity and specificity of the immunoassay in the high-binding 96 well plates and on epoxy-coated glass slides. Similar to what was observed in the previous chapter, the HIV and TB antigen-antibody interactions were specific, and the epoxy-coated microarray slides were more sensitive than the 96 well high-binding plates with limits of detection averaging 815-folds lower than the plates. Nevertheless, both platforms were found to be sensitive enough to be used for the POC detection of HIV and TB co infection using visual inspection. Furthermore, the stability of the antigens in the 96 well high-binding plates using colour change detection was also evaluated. The antigens were found to be stable in the high-binding plates at different pH and temperature conditions; however, pH 7.4 and 25 ˚C were optimal. In addition, the antigens were stable when stored dry in the plates for a period of three months. In addition, between the two HRP substrates used, TMB was faster and more sensitive to the HIV and TB antigen-antibody reactions than the ABTS substrate, and the difference was statistically significant (p<0.05). The importance of this chapter is that it eliminated the need for sophisticated equipment to detect the presence of HIV and TB antibodies, as the detection could be achieved by visual inspection. Overall, data in this chapter supported further development of the microarray technology for the POC HIV and TB co-infection diagnosis. Chapter five attempted to produce the CFP10, ESAT6, and pstS1 TB antigens in plants to reduce the cost associated with the current commercially available bacteria-produced antigens.
  • Thumbnail Image
    Item
    Evaluation of novel assay formats for indoleamine 2, 3 dioxygenase as a tb biomarker
    (University of the Witwatersrand, Johannesburg, 2023) Tsolo, Semakaleng Theresia; Ranchod, Heena
    The World Health Organization has prioritized the development of non-sputum-based assays that are capable of detecting active Tuberculosis (TB). Tryptophan (tryp) is converted to kynurenine (kyn) by the rate-limiting enzyme indoleamine 2, 3- dioxygenase (IDO). IDO activity may serve as a biomarker for active TB. Dried blood spots (DBS) can be collected outside of medical institutions and are simple to transport. We wanted to explore the use of DBS as an alternative sample type to measure the kyn/tryp ratio and IDO mRNA gene expression in healthy people. METHODS We optimised methods for elution of dried blood spots, exploring various elution buffers. Following method optimisation, we enrolled 40 healthy participants, and collected whole blood and DBS samples. Kyn and tryp concentrations were measured using ELISA (ImmuSmol, France). IDO mRNA gene expression was determined by real-time PCR using two housekeeping genes GAPDH and BACT. Statistical analysis was performed to determine the correlation and agreement between peripheral blood samples and DBS. RESULTS For IDO activity, tryp showed good agreement between plasma and DBS with a median percentage similarity of 91.1%. In contrast, no agreement was observed for kyn with a median percentage similarity of 56.6%. The kyn/tryp ratio performed poorly due to poor detection of kyn in DBS. Percentage similarity between whole blood and DBS IDO mRNA expression using GAPDH 87.1%, while using BACT was 84.6%. Using either traditional sample types or DBS, there was no correlation between IDO gene expression and kyn/tryp ratio. CONCLUSION We showed that tryp was measurable in DBS. Tryp in DBS was 91.1% similar to values in plasma. Despite method optimization, there was poor agreement between DBS and plasma for kyn. Although IDO mRNA gene expression was detectable in DBS, method agreement with whole blood was unsatisfactory. Alternative methods for the stabilization of kyn in DBS should be explored in future studies. IDO mRNA expression should be measured from whole blood in future studies