Prevalence of tuberculosis, multidrug resistant tuberculosis and associated risk factors among smear negative presumptive pulmonary tuberculosis patients in Addis Ababa, Ethiopia

This is an analytic cross sectional study which was conducted in Addis Ababa, Ethiopia from August 2017 to January, 2018. Addis Ababa is the Federal Capital of Ethiopia. It is located between 8055′ and 9005′ North Latitude and between 38040′ and 38050′ East Longitude. The population is more than 3 million [26] (Fig. 1).

The study was conducted in 16 governmental and private health facilities included in directly observed treatment short course (DOTS) program in Addis Ababa region by the year 2017. A list of all DOTS sites was prepared on excel sheet and rand command was used to select health facilities from the list. Then by using simple random sampling technique 20% of the sites were selected out of the lists. Simple random sampling was used to select study sites since there were similar characteristics among governmental and private DOTS sites.

Sputum smear negative presumptive pulmonary tuberculosis patients who were equal or greater than the age of 2 (two) years visiting the selected health facilities during the study period were included in the study. Whereas, those who were taking anti-TB drugs for greater than 1 week by any means and patients incapable of producing sputum were excluded.

Sample size calculation was performed for both objectives; prevalence of smear negative pulmonary TB and MDR TB by using single population proportion formula with corrected. Then the larger sample size was taken to represent the other. For prevalence of smear negative pulmonary tuberculosis, the sample size was 264 and for prevalence of SNMDR TB, it was 413 in 95% confidence interval. Therefore the 413 was the total sample size for this study [6].

Onsite training was given for all laboratory staffs and clinicians about the project for each respective study sites. Data was collected using structured questioner about socio-demographic information, clinical presentations (Table 5) and comorbidities/co-infections (HIV AIDS, diabetes mellitus, asthma, hypertension, heart disease, liver disease, renal failure, hormonal disease, malignancy/ cancer), behavioral and other risk factors (miners, prisoners/prisoner staffs, migrant, TB/MDR TB contact, alcohol consumption, smokers, and chewing Khat) from smear negative presumptive pulmonary tuberculosis (SNPPT) patients. Laboratory investigation data was also taken from study registration book, printouts, and culture work sheet.

Two spot sputum specimens (in Spot-Spot sample collection strategy) were collected from, presumptive pulmonary tuberculosis patients and checked for AFB using ZN method in the health facilities. Specimen was collected for the purpose of the study from smear negative presumptive pulmonary patients and from left over samples which were collected from presumptive pulmonary TB patients as well. All patients who were smear negative were enrolled according to the inclusion criteria. Sputum sample was collected with wide mouthed, clean, 50 ml capacity, sterile, disposable containers, polypropylene centrifuge tubes, translucent, screw capped container after detail patient instruction at the health facility level. It was expected to collect sample with volume > = 3 ml; but those samples less than 3 ml was rejected, wrong sample containers, containers with leakage, breakage, and with incomplete questioner were rejected. Specimens collected was stored at 2-8^oc until transported. The specimen was transported using triple packaging. Specimens arrived at the Ethiopian Public Health Institute (EPHI), National Tuberculosis Reference Laboratory (NTRL), was rechecked for fulfilling criteria and was stored again at 2-8^oc in the refrigerator if it was not processed immediately.

From the specimen collected, AFB microscopy [27], Xpert MTB/RIF assay (Cepheid, Sunnyvale, CA, USA) (directly from the sample before processing for culture), Liquid (BACTEC MGIT 960 (Becton-Dickinson and Company, Sparks MD)) and Solid culture (LJ media) were performed in the EPHI, NTRL. Drug susceptibility testing was performed here for the culture isolates. Any result found positive was reported to the physician requested the test for further patient management. The samples were splited in to two; one for culture and the other for Xpert MTB/ RIF assay. For Xpert MTB/ RIF assay, sample was mixed with sample reagent buffer in 1:2 (sample: sample reagent buffer) volume ratio. Then, closing it tightly, vortexed for 15 s and allowed to stand at room temperature for 10 min. It was vortexed again after 10 min and allowed to stand for 5 min, totally for 15 min. Using the Pasteur pipette provided with the kit > 2 ml of the (just above 2 ml mark on pipette) processed sample was put into the Xpert MTB/RIF cartridge. After that, the cartridge with the specimen was loaded to the GeneXpert machine. Finally, results were collected from the GeneXpert computer after 2 h [28]. Samples for culture were processed with 3% N-Acetyl-L-Cysteine–Sodium Hydroxide (NALC-NaOH) decontamination method. Equal volume of NALC-NaOH-sodium citrate solution was added to the sample, vortexed and kept stand at room temperature for 15 min to let the NaOH decontaminate normal flora present in the sputum with the help of the mucolytic agent. Then, this solution was neutralized (effect of NaOH stopped) by 6.8 pH phosphate buffer solution (PBS), concentrated the freed bacilli in the tube by centrifugation at relative centrifugal force of 3,000 x g for 15 min using safety centrifuge at a temperature of 4–8 °C. After this the supernatant removed, smear made from the sediment and sediment resuspended by adding 2 ml of PBS. Making the sediment uniform by vortexing, 0.5 ml and 2–4 drops were added to the MGIT tube and LJ tube respectively. The MGIT tube was enriched with 0.8 ml of a mixture of growth supplement which contains Middle brook OADC enrichment and PANTA (lyophilized mixture of antimicrobial agents) prior to the inoculation of the tube with the sediment. After all, the LJ medium incubated in the incubator at 37 °C and the MGIT tube loaded to the BACTEC MGIT 960 machine. For positive culture results smear prepared and blood agar/ brain heart infusion agar inoculated for positive MGIT tube and smear prepared and examined for positive LJ for identification mycobacterium TB complex (MTBC) from other non-tuberculous mycobacteria and contaminants. Negative results reported after 42 days for MGIT 960 system and 56 days for LJ medium [29]. SD BIOLINE TB Ag MPT 64® (STANDARD DIAGNOSTICS, INC, Republic of Korea) test was used for the confirmation of MTBC [30]. Genotypic and phenotypic drug susceptibility testing was performed using world health organization recommended methods: line probe assay (MTBDR plus Ver.2 for first line anti-TB drugs, MTBDRsl Ver.2 for second line anti TB drugs) and BACTEC MGIT 960 system (for first line drugs using proportion method) respectively (Fig. 2).

Reagents, and culture media prepared within the laboratory or purchased as readymade which have effect on the test result was checked for sterility and performance characteristics using well characterized control slide or strains such as; a positive and negative control smear slides were included in each batch of new lots of reagents prepared, 2% of a batch of tubes of MGIT Culture media was tested with different dilutions of M. tuberculosis (H37Rv). Specimens which had breakage or leakage, incomplete patient information and mislabeling, delayed specimen more than 5 days after collection, inappropriate container, and insufficient volume of sample (less than 3 ml) were rejected. Processing reagents (NaOH, Phosphate buffer) was sterilized before use. Each batch of samples that was processed for culture used start and end controls. All laboratory investigations were done by experienced laboratory technologists in the National Tuberculosis Reference Laboratory, EPHI. Each of the culture and identification procedures was performed in a certified class II Bio-Safety Cabinet. Equipment preventive maintenance, temperature monitoring, monitoring of critical microbiological practices, and instrument function checkups was done. The laboratory performance is also continuously monitored by Proficiency Testing (PT) for all test methods. All laboratory analysis was done based on Ethiopian national TB, HIV and leprosy management guideline and WHO approved methods.

The data collected from each questionnaire and the laboratory investigation was doubly entered and cleaned by using Epi -data statistical software version 3.0 and exported to IBM SPSS software version 20.0 for analysis. By using central measurement, dispersion and frequency distribution descriptive statistics was done to characterize the study participants and the result of the study was also presented by using tables and figures. The prevalence of SNPT and SNMDR TB was calculated with its 95% CI. Binary logistic regression also done to determine the association between dependent variables and possible risk factors. Variables which show significance at P-value of 0.2 during univariate analysis were selected for multivariable analysis. The strength of association was measured by using odds ratio and P-value of less than 0.05 was considered as statistically significant during multivariable analysis.

A total of 418 patients’ epidemiological and bacteriological data were analyzed. Most of the patients were from adult out-patient-department (OPD) (Fig. 3). Majority, 231(55.3%) of the patients were females. The mean age of participants was 35.68 (± 17.12) years. Most of the participants, 125 (29.8%) were in the age group of 25–34 years, and children under 15 years were 20 (4.8%). The predominant religion was Orthodox Christians, 323 (77.3%), followed by Muslims, 57 (13.6%). Among all participants, 228 (nearly 55%) were below grade 7. The participants had different occupation; the most frequent was house wife, 87 (21.1%) and the second frequent work was daily laborer, 76 (18.4%). Two hundred eighteen (52.3%) participants were married whereas 159 (38.1%) were single (Table 1).

Signs and symptoms, comorbidity (self-reported by the patient not confirmed) and other risk factors were assessed in the study. From all the participants, 367 (88%) had cough as a chief compliant, and 112 (30.5%) of them with productive cough. HIV status was known only for 211 patients. HIV positivity rate was 27%. Fourteen (3.37%) participants were known to have diabetes mellitus (DM). Thirty five (8.4%) patients had TB contact history (Figs. 4 and 5, Table 2).

SNPT prevalence among presumed smear negative PTB patients was 6.5% (95% C.I, 4.103–8.816) by Xpert MTB/RIF assay. Twenty six patients (6.4%) were smear negative and culture confirmed / by either of the culture techniques (LJ and MGIT), SNPT patients (Table 3).

More TB was detected in male than female patients. The positivity rate among male and female was 10.2 and 3.5%, respectively. There was significant difference in TB prevalence among male and female (p = 0.005). High rate of TB detection was observed in the age range 15–24 years, 8 (8.5%) and 25–34 years, 11 (8.9%). All positive SNPT were detected from the age groups between 15 and 64 years. SNPT prevalence was, 20 (6.2%) among Orthodox Christians, 5 (8.8%) and 2 (6.0%) among Muslims and Protestants respectively. Majority, 21 (80.77%) of the total SNPT were found to be positive in those who were below grade 12, but it was not statistically significant (P = 0.496). From the total of 411 participants responded, the most common work status, 87 (21.1%) was house wife; however SNPT prevalence was low, 01 (1.2%). The second most frequent work, 76 (18.4%) was daily laborer with (7.9%) SNPT prevalence, and the least frequent, 03 (0.7%) was health worker, with the highest SNPT prevalence 01(33.3%) and there was an association with the SNPT (P <  0.006). The odds of having SNPT was 68.7 times higher in health care workers as compared to farmers, (AOR 68.7; 95% C.I, 2.447–1929.15, p = 0.013). From 417 participants interviewed, 218 (52.3%) were married, from which 11 (5.04%) was TB positive, 159 (38.1%) were single from which 14 (8.8%) was TB positive, (p = 0.460) (Table 4).

Among clinical signs and symptoms this study investigated; weight loss (p < 0.001), shortness of breath (p = 0.034) and loss of appetite (p = 0.023), having association with the SNPT in univariate analysis. However, in the multivariate analysis these symptoms are not statistical significant; loss of appetite (AOR 0.778; 95% C.I, 0.248–2.438, P = 0.666), weight loss (AOR 0.340; 95% C.I, 0.108–1.069, p = 0.065) and shortness of breath (AOR 0.493; 95% C.I, (0.181–0.1.343), p = 0.167). Known chronic malignancies (Table 5) and comorbidities were not significantly associated with SNPT depending on these study findings. HIV-TB co-infection was 5.3%. From behavioral and other risk factors that showed association in the univariate model, only being migrant were statistically significant factor for the SNPT (AOR 0.121; 95% C.I, (0.20–0.730) p = 0.021) (Table 6).

A total of 26 smear negative, culture confirmed TB was detected. All clinical isolates were tested by using Genotype MTBDR plus Ver.2, first- line MGIT DST and Genotype MTBDRsl Ver.2. Among these isolates, 03 (11.54%) were MDR-TB (resistant to both isoniazid and rifampicin) and 07 (26.9%) were resistant to isoniazid. All rifampicin resistant (RR) TB by GeneXpert were found to be MDR-TB by Genotype MTBDR plus Ver. 2 and MGIT DST methods. Twenty three SNPT were isolated from new presumptive TB patients and two (8.7%) of them were rifampicin resistant. The remaining three SNPT were detected from previously treated patients and one (33.3%) of the isolates was rifampicin resistant. From 23 new SNPT isolates, 06 (26.08%) were resistant for isoniazid. From 03 (11.54%) isolates diagnosed from retreatment presumptive TB patients, 01 (33.33%) was resistant for isoniazid (p = 0.79). All of SNMDR TB 03/26 were detected from men (p = 0.264) and in the age group of 15–34 years old (p = 0.814). Drug susceptibility testing was performed for randomly selected 23 (88.46%) of the isolates for second line anti-TB drugs using Genotype MTBDRsl Ver.2, to check for any resistance but all the isolates were susceptible (Table 7).