https://ojs.wpro.who.int/ 1WPSAR Vol 14, No 3, 2023 | doi: 10.5365/wpsar.2023.14.3.1011 Case Series C oinfection with severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and other respiratory pathogens is not uncommon and has been reported to be associated with less favourable outcomes.1 As a consequence of disruptions to health-care services due to the coronavirus disease (COVID-19) pandemic, there have been delays in patients presenting and being diagnosed with pulmonary tuberculosis (PTB) in areas where tuberculosis (TB) is endemic.2,3 Diagnoses of TB infection declined in 2020, ranging from 16% to 41% reduction in the nine countries with the most TB cases documented previously.3 Therefore, coinfections with COVID-19 and TB are expected, and patients with coinfection have been shown to do less favourably, including patients who have already recovered from PTB.4,5 COVID-19 infection can also increase the risk of progression to TB disease or reactivation of previous TB, either due to the immunosuppressive effects of COVID-19 or from treatment, such as the use of steroids.6,7 Therefore, timely diagnosis of TB and COVID-19 coinfection in TB-endemic countries is important. Brunei Darussalam is a TB-endemic country and TB remains a public health problem despite rates declining from 106/100 000 population in 2000 to 64/100 000 in 2019. The rate increased in 2020 to 82/100 000 despite the disruption to health-care services caused by the COVID-19 pandemic. The rate dropped to a pre-pandemic level of 61/100 000 in 2021,8 which was likely related to some services returning to normal. The COVID-19 out- break in Brunei Darussalam started on 9 March 2020, and by 5 November 2021, the number of COVID-19 cases recorded was 13 673.9 We report our experience with patients who were coinfected with COVID-19 and Mycobacterium during the second wave of COVID-19 that started on 7 August 2021. CASE SERIES COVID-19 and Mycobacterium coinfection Of the 1490 adult patients admitted to the National Isola- tion Centre for COVID-19 infection between 7 August and 6 November 2021, during the second wave, seven were a National Isolation Centre, Ministry of Health, Tutong, Brunei Darussalam. b Pengiran Muda Mahkota Pengiran Muda Haji Al-Muhtadee Billah Hospital, Tutong, Brunei Darussalam. c Raja Isteri Pengiran Anak Saleha Hospital, Bandar Seri Begawan, Brunei Darussalam. d Suri Seri Begawan Hospital, Belait, Brunei Darussalam. Published: 18 August 2023 doi: 10.5365/wpsar.2023.14.3.1011 Coronavirus disease (COVID-19) and tuberculosis (TB) coinfection is expected to become more common in countries where TB is endemic, and coinfection has been reported to be associated with less favourable outcomes. Knowing about the manifestations and outcomes of coinfection is important as COVID-19 becomes endemic. During the second wave of the COVID-19 pandemic in Brunei Darussalam, we encountered seven patients with COVID-19 and Mycobacterium coinfection. Cases of coinfection included three patients with newly diagnosed pulmonary Mycobacterium infection (two cases of pulmonary TB [PTB] and one case of Mycobacterium fortuitum infection) and four patients who were already being treated for TB (three cases of PTB and one case of TB lymphadenitis). Among the new cases, one had previously tested negative for PTB during a pre-employment medical fitness evaluation and had defaulted from follow up and evaluation. One case died: a 42-year-old man with diabetes mellitus, chronic kidney disease and hypertension who had severe COVID-19 and needed urgent dialysis and supplemental oxygen. All other patients recovered from COVID-19 and completed their TB treatment. COVID-19 and Mycobacterium coinfection in Brunei Darussalam: case series Babu Ivan Mani,a,b Panduru Venkata Kishore,c Wai Yan Khine,c Dilip Joseph Thottacherry,d Pui Lin Chong,a,b Muhamad Syafiq Abdullah,a,b Rosmonaliza Asli,a,b Natalie Raimiza Momin,a,c Noor Affizan Rahman,a,b,c Chee Fui Chonga and Vui Heng Chonga,b,c Correspondence to Vui Heng Chong (email: vuiheng_chong@moh.gov.bn) WPSAR Vol 14, No 3, 2023 | doi: 10.5365/wpsar.2023.14.3.1011 https://ojs.wpro.who.int/2 Mani et alCOVID-19 and TB coinfection in Brunei Darussalam Case 2 was a 45-year-old male expatriate worker from India who initially presented to another hospital with mild cough and abnormal CXR (Fig. 1b). He tested positive for COVID-19 and was transferred to the National Isolation Centre for treatment. He did not report haemop- tysis, fever or weight loss and denied any history of PTB. He was also newly diagnosed with diabetes mellitus. Interestingly, a CXR done 7 months previously during a pre-employment medical fitness check was abnormal (showing a left lung nodule). Sputum smear and culture for PTB at that time were negative. He defaulted from follow up and did not have further evaluation. During the present hospitalization, sputum smear tests were positive for PTB. On repeated inquiry, it was revealed that he had been previously treated for PTB in India 2 years earlier. He was treated as a recurrent case of PTB with standard treatment. He reported no positive contact for COVID-19. He was categorized as having moderate COVID-19. Case 3 was a 31-year-old male without any comor- bidities who presented with sore throat, new onset cough and diarrhoea. CXR showed left-medial upper zone opac- ity (Fig. 1c). Sputum smear for AFB and line probe assay were both negative. His symptoms resolved and he was discharged. Follow-up review revealed that the sputum culture was positive for M. fortuitum, and he was started on treatment as a case of infection with nontuberculous mycobacteria (NTM), as per our guidelines. This patient had no risk factors for NTM but had a positive contact for COVID-19. He was categorized as having moderate COVID-19. All three cases were discharged after testing nega- tive for SARS-CoV-2 by polymerase chain reaction (PCR), after 5 to 11 days of hospitalization. Cases with Mycobacterium infection already being treated Four patients were undergoing treatment for TB infection when they became infected with SARS-CoV-2. Three were adults with PTB (cases 4–6) and one (case 7) was an adolescent with TB lymphadenitis. All patients continued their anti-TB treatment and sputum smear testing during hospitalization until sputum smear tests were negative for AFB. Case 4 was a 50-year-old female with diabetes mel- litus, hypertension and dyslipidaemia who was admitted to another hospital with cough, dyspnoea, lethargy and coinfected with TB, giving a coinfection rate of 4.7%. These included three new cases of Mycobacterium infection: two were diagnosed with PTB and COVID-19 coinfection, and one tested negative by sputum smear during admission but was later confirmed by culture to be infected with Mycobacterium fortuitum. The other four patients were already being treated for TB when they became infected with COVID-19: three had PTB and one had TB lymphadenitis (Table 1). The median age of patients with coinfection was 43.5 years (range: 15–71 years), with a male to female ratio of 4:3. Five patients had comorbidities: diabetes mellitus (n = 5), hyperten- sion (n = 3), dyslipidaemia (n = 3), kidney disease (n = 2) and bladder cancer (n = 1). Four patients had not been vaccinated for COVID-19. Chest X-rays (CXRs) were abnormal in six patients. All patients tested negative for HIV. Clinical information New cases of pulmonary Mycobacterium infection All three newly diagnosed cases with Mycobacterium in- fection had been vaccinated against COVID-19 (two dos- es) and were categorized as having moderate COVID-19 based on our criteria: mild – category 1 (asymptomatic) and category 2 (mild symptoms of COVID-19); moderate – category 3 (abnormal CXR); severe or critical – category 4 (needed supplemental oxygen) and category 5 (needed mechanical ventilation with or without other organ fail- ure).10 Case 1 was a 53-year-old female with diabetes mellitus, chronic kidney disease, hypertension, dyslipi- daemia and obesity who presented with chronic cough, weight loss, fever, rhinorrhoea, anorexia and dyspnoea on exertion. The admission CXR showed right upper lobe opacities (Fig. 1a). Sputum smear testing was negative for acid fast bacilli (AFB) but the Hain GenoType Line Probe assay (Hain Lifescience, Germany) was positive for Mycobacterium tuberculosis, which was confirmed by culture. This patient was treated with specific COVID-19 antibodies (casirivimab and imdevimab; Roche Pharmaceutical, Switzerland) and was also started on standard anti-TB treatment (2 months of rifampicin, isoniazid, ethambutol and pyrazinamide followed by 4 months of rifampicin and isoniazid). She reported no contact with anyone who had PTB, but she was positive for contact with COVID-19. She was categorized as hav- ing moderate COVID-19. WPSAR Vol 14, No 3, 2023 | doi: 10.5365/wpsar.2023.14.3.1011https://ojs.wpro.who.int/ 3 COVID-19 and TB coinfection in Brunei DarussalamMani et al Case 7 was a 15-year-old female who was being treated for lymphadenitis of the neck. She was admit- ted with cough, dyspnoea and chest pain. Her CXR was normal. Pseudomonas aeruginosa was isolated from her sputum. Because she was improving, no treatment was initiated. She was categorized as having mild COVID-19. All surviving cases were discharged after testing negative for SARS-CoV-2 on PCR, after 12 to 23 days of hospitalization. Outcomes and follow up The length of hospitalization for all seven cases ranged from 4 to 23 days (median: 11). There was one death (case 5) due to severe COVID-19 and significant co- morbidities, giving a mortality rate for COVID-19 and Mycobacterium coinfection of 14.3%. All other patients recovered from their COVID-19 infection and completed their TB treatment. However, case 6 died from advanced cancer of the bladder 271 days after recovering from COVID-19. DISCUSSION COVID-19 is a highly infectious disease and it is not surprising that patients with other infections become in- fected with it. One systematic review and meta-analysis reported a high prevalence of coinfection among reduced appetite. She was transferred to the National Isolation Centre when she tested positive for SARS-CoV-2. Her risk factor for COVID-19 was a positive contact in the ward at the previous hospital. Her CXR was abnormal, but she did not require supplemental oxygen. She did not require any specific treatment for COVID-19. She was categorized as having moderate COVID-19. Case 5 was a 42-year-old male with diabetes mel- litus, hypertension, dyslipidaemia and predialysis chronic kidney disease who presented with cough and dyspnoea. His CXR was abnormal, showing consolidation in the right-middle and lower zones. He was started on high- flow nasal oxygen and commenced dialysis. He was cat- egorized as having severe COVID-19. However, treatment for COVID-19 was contraindicated due to his end-stage kidney disease, so it was not started. His condition was stable, but he had a sudden cardiac arrest and died 4 days after hospitalization. Case 6 was a 71-year-old male with diabetes mellitus and stage 4 urinary bladder cancer who was admitted with exertional dyspnoea and cough. His CXR was abnormal. He was started on supplemental oxygen, low-molecular-weight heparin and dexamethasone. He was also treated with a course of antibiotics for second- ary pulmonary coinfection with Klebsiella pneumoniae. He was categorized as having severe COVID-19. His condition improved with treatment. Fig. 1. Admission chest X-ray for case 1 (a), case 2 (b) and case 3 (c) (a) Case 1 shows a soft shadowed mass (arrow) in the right upper lobe. (b) Case 2 shows extensive consolidation of the left-upper and mid-zones, ill-defined ground glass opacities in the periphery of the right-upper, mid- and lower zones, and cavities in both upper zones and right lower zones, the largest one measuring about 5 cm in the left-upper zone. (c) Case 3 shows a left-medial upper lung opacity. Mani et alCOVID-19 and TB co-infection in Brunei Darussalam WPSAR Vol 14, No 3, 2023 | doi: 10.5365/wpsar.2023.14.3.1011 https://ojs.wpro.who.int/4 Table 1. Details of patients coinfected with coronavirus disease (COVID-19) and Mycobacterium species, Brunei Darussalam, 7 August to 6 November 2022 Case no. Nationality Sex/age (years) Medical history Chest X-ray Tuberculosis COVID-19 Other coinfection Length of stay (days) Outcome of co- infection TB status Risk Sputum smear for AFB during hospitalization Culture for AFB Vaccination status Risk Ctv at diagnosis Disease severitya Treatment 1 Bruneian F/53 DM, CKD, HT, DLD, obesity Abnormal New PTB None 3 negative smears; positive on line probe assay M. tuberculosis Complete Positive contact (son) 12.7 Moderate Casiriv- imab and imdevimab None 10 Alive 2 Indian M/45 Newly diagnosed DM Extensive consolidations and cavities New PTB Treated for PTB 2 years previously Positive M. tuberculosis Complete None 23.6 Moderate None None 11 Alive 3 Bruneian M/31 None Abnormal New NTM None Negative M. fortuitum Complete Positive contact (brother-in- law) 37.1 Moderate None None 5 Alive 4 Bruneian F/50 DM, HT, DLD Fibrosis and cavities; diffuse ground glass opacities in all zones PTB and already on treatment Mother >30 years ago 3 negative smears M. tuberculosis Unvaccinated Positive contact (hospitalization) 17.3 Moderate None None 12 Alive 5 Bruneian M/42 DM, HT, DLD, pre-ESRD Right-middle and lower zone consoli- dation PTB and already on treatment None 2 negative smears M. tuberculosis Unvaccinated Positive contact (hospitalization) 16.8 Severe None; contrain- dicated by pre-ESRD None 4 Started on haemo- dialysis; died of comorbi- dities and COVID-19 6 Bruneian M/71 DM, stage 4 bladder cancer Right apical fibrosis; left lower zone opacities PTB and already on treatment Relapse 3 negative smears M. tuberculosis Unvaccinated Positive contact (family members) 13.5 Severe Fonda- parinux and dexa- methasone Secondary Klebsiella pneumoniae identified in sputum; chest infection was treated 23 Alive 7 Bruneian F/15 None Normal EPTB and already on treatment Grandfather and father 3 negative smears M. tuberculosis Ineligible Positive contact (family member) 19.0 Mild None Pseudomonas aeruginosa (sputum): not treated 15 Alive AFB: acid-fast bacilli; CKD: chronic kidney disease; Ctv: cycle threshold value; DLD: dyslipidaemia; DM: diabetes mellitus; EPTB: extrapulmonary tuberculosis; ESRD: end-stage renal disease; F: female; HT: hypertension; M: male; NTM: non-tuberculous mycobacteria; TB: tuberculosis. a Disease severity was categorized as mild – category 1 (asymptomatic) and category 2 (mild symptoms of COVID-19); moderate – category 3 (abnormal CXR); and severe or critical – category 4 (needed supplemental oxygen) and category 5 (needed me- chanical ventilation with or without other organ failure). WPSAR Vol 14, No 3, 2023 | doi: 10.5365/wpsar.2023.14.3.1011https://ojs.wpro.who.int/ 5 COVID-19 and TB coinfection in Brunei DarussalamMani et al For cases known to have PTB and already on treatment, excluding the adolescent patient who was being treated for TB lymphadenitis (case 7), COVID-19 manifestations were more severe, with two cases needing supplemental oxygen. These three cases had pre-existing pulmonary damage from PTB in addition to other significant comorbidities. In addition to changes on CXR due to PTB, there were also changes due to COVID-19, such as ground glass opacities or consoli- dations. Severe manifestations are not unexpected in these patients, given their already compromised pul- monary function. Furthermore, none of the patients had been vaccinated for COVID-19. The adolescent patient being treated for TB lymphadenitis was not eligible for vaccination at that time because the COVID-19 vaccine had not yet been approved for people younger than 18 years. Patients in this group were hospitalized for longer compared with cases recently diagnosed with Mycobacterium infection. There was one death in our series, giving a mortality rate of 14.3%, comparable to the 13.0% reported by Koupaei et al., and compared with the 6.6% rate of deaths from COVID-19 without coinfec- tion.13 A meta-analysis reported increased disease severity and mortality among those with coinfections compared with those without TB coinfection.14 A study from the United States of America reported higher mortality among cases with TB–COVID-19 coinfection: it was two times higher compared with persons with TB before the pandemic and 20 times higher com- pared with persons with COVID-19 alone.15 This may be due to the synergistic effects of coinfections and also because patients with PTB may have damaged lungs. Furthermore, COVID-19 can progress rapidly, leading to fulminant lung damage. Therefore, early diagnosis is important, especially now that treatment for SARS-CoV-2 is available. As the pandemic continues, and even long after the pandemic is declared over, COVID-19 will persist as an endemic illness and eventually circulate as a com- mon respiratory viral infection. The risk of coinfections occurring with COVID-19 will persist, especially for patients with chronic diseases such as PTB. Despite our findings of only a 4.7% coinfection rate, we con- tinue to follow our protocol to screen all PTB patients COVID-19 patients, with the most common coinfection being bacterial (pooled prevalence: 20.9%), followed by fungal (12.6%) and viral (12.6%).11 The most com- mon bacterial coinfections reported were primary or secondary bloodstream infections or lower respiratory tract infections.12 COVID-19 and TB coinfection has been less commonly reported, and when reported it has been mainly as case reports or small case series. A systematic review of studies looking at COVID-19 and TB coinfection up to February 2021 identified 11 case series and 20 case reports with a total 146 patients, most from China and India, two of the most populous nations where TB remains endemic.13 During the second wave of COVID-19 in Brunei Darussalam, we encountered seven cases of coinfection with COVID-19 and Mycobacterium, giving a coinfection rate of 4.7%. Among our patients with coinfection, three had recently detected pulmonary mycobacteria infections, two had PTB and one had pulmonary M. fortuitum. All new cases had changes on CXR reflecting coinfec- tion with pulmonary Mycobacterium and COVID-19. The categorization of COVID-19 as moderate for these three patients was based on their CXR changes. If CXR had not been part of routine assessment, these diagnoses of pulmonary Mycobacterium would have been missed. Fortunately, our management protocol required selective follow up of patients with unresolved issues or pending investigations, and this prevented us from missing the case of NTM infection. Of major concern was that one patient (case 2), an expatriate labourer, had tested negative for PTB 7 months before his admission with COVID-19. Given his CXR findings, it is quite certain he already had active PTB at that time. Unfortunately, he defaulted from his scheduled follow-up appointment and did not have any further evaluation. If he had not been evaluated during his most recent admission, the diagnosis of PTB would have been missed again, posing a risk for continued community spread. Hospitalizations were uncomplicated and all patients were discharged within 5 to 11 days, except for case 5 who died of comorbidities 4 days after admission. Importantly, all had received two doses of COVID-19 vaccine, and this may have mitigated the impact of COVID-19. WPSAR Vol 14, No 3, 2023 | doi: 10.5365/wpsar.2023.14.3.1011 https://ojs.wpro.who.int/6 Mani et alCOVID-19 and TB coinfection in Brunei Darussalam Funding None. References 1. Feldman C, Anderson R. The role of co-infections and second- ary infections in patients with COVID-19. Pneumonia (Na- than). 2021;13(1):5. doi:10.1186/s41479-021-00083-w pmid:33894790 2. McQuaid CF, Henrion MYR, Burke RM, MacPherson P, Nzawa-Soko R, Horton KC. Inequalities in the impact of COVID-19-associated dis- ruptions on tuberculosis diagnosis by age and sex in 45 high TB bur- den countries. BMC Med. 2022;20(1):432. doi:10.1186/s12916- 022-02624-6 pmid:36372899 3. 12 months of COVID-19 eliminated 12 years of progress in the global fight against tuberculosis. Geneva: Stop TB Partnership; 2021. Available from: https://www.stoptb.org/file/9099/download, accessed 24 February 2022. 4. Song WM, Zhao JY, Zhang QY, Liu SQ, Zhu XH, An QQ, et al. COV- ID-19 and tuberculosis coinfection: an overview of case reports/case series and meta-analysis. Front Med (Lausanne). 2021;8:657006. doi:10.3389/fmed.2021.657006 pmid:34504847 5. Sy KTL, Haw NJL, Uy J. Previous and active tuberculosis increases risk of death and prolongs recovery in patients with COVID-19. In- fect Dis (Lond). 2020;52(12):902–7. doi:10.1080/23744235.202 0.1806353 pmid:32808838 6. Tian W, Zhang N, Jin R, Feng Y, Wang S, Gao S, et al. Immune suppression in the early stage of COVID-19 disease. Nat Com- mun. 2020;11(1):5859. doi:10.1038/s41467-020-19706-9 pmid:33203833 7. Chen F, Hao L, Zhu S, Yang X, Shi W, Zheng K, et al. Potential ad- verse effects of dexamethasone therapy on COVID-19 patients: re- view and recommendations. Infect Dis Ther. 2021;10(4):1907–31. doi:10.1007/s40121-021-00500-z pmid:34296386 8. Tuberculosis profile: Brunei Darussalam. Geneva: World Health Or- ganization; 2021. Available from: https://worldhealthorg.shinyapps. io/tb_profiles/?_inputs_&entity_type=%22country%22&lan=%22 EN%22&iso2=%22BN%22, accessed 15 April 2023. 9. 128 cases COVID-19 reported today, 5 November 2021: media statement on the current situation of COVID-19 in Brunei Darus- salam [website]. Bandar Seri Begawan: Ministry of Health, Brunei Darussalam; 2021. Available from: https://www.moh.gov.bn/Lists/ Latest%20news/NewDispForm.aspx?ID=1089&ContentTypeId=0 x0104009A3003A09F8D6E42981D262E322516A2, accessed 15 April 2023. 10. Rahman NA, Abdullah MS, Asli R, Chong PL, Mani BI, Chong VH. Challenges during the second wave of COVID-19 in Brunei Darus- salam: National Isolation Centre to National COVID-19 Hospital. Western Pac Surveill Response J. 2022;13(3):1–7. doi:10.5365/ wpsar.2022.13.3.913 pmid:36688181 11. Pakzad R, Malekifar P, Shateri Z, Zandi M, Akhavan Rezayat S, Soleymani M, et al. Worldwide prevalence of microbial agents’ coin- fection among COVID-19 patients: a comprehensive updated system- atic review and meta-analysis. J Clin Lab Anal. 2022;36(1):e24151. doi:10.1002/jcla.24151 pmid:34851526 for COVID-19 and vice versa if the COVID-19 patients exhibit features on imaging or clinical features of TB, especially because treatments are available. The main limitation of our study is the small sam- ple size: we had only seven patients with coinfection, including a patient with NTM infection with M. fortuitum. However, as a result of the management strategy in the country, all patients with COVID-19 and Mycobacterium coinfection were isolated and treated during the study period. Therefore, our results are representative of the whole country. CONCLUSIONS Our case series showed that COVID-19 and Myco- bacterium coinfection is uncommon, with only 4.7% of patients admitted during the second wave of the COVID-19 pandemic in Brunei Darussalam being af- fected. It is important to be aware that new cases of pulmonary Mycobacterium infection may present with COVID-19 as a coinfection, and similarities in clinical manifestations may result in missed diagnoses. Simi- larly, patients being treated for TB are susceptible to COVID-19. Almost all of our patients had moderate to severe COVID-19 disease and, fortunately, most recovered with or without specific COVID-19 treatment. There was one death (mortality rate: 14.3%) in a patient with significant comorbidities. Even though COVID-19 and TB coinfections were uncommon, we will continue to follow our protocol to screen for COVID-19 coinfec- tion among patients admitted with PTB, either known or newly diagnosed. Similarly, we will also continue to screen for PTB in patients admitted for COVID-19 who exhibit features of PTB, especially if their CXR shows changes suggestive of PTB. Conflicts of interest The authors have no conflicts of interest to declare. Ethics statement This study was conducted in accordance with the Decla- ration of Helsinki. https://worldhealthorg.shinyapps.io/tb_profiles/?_inputs_&entity_type=%22country%22&lan=%22EN%22&iso2=%22BN%22 https://www.moh.gov.bn/Lists/Latest%20news/NewDispForm.aspx?ID=1089&ContentTypeId=0x0104009A3003A09F8D6E42981D262E322516A2 WPSAR Vol 14, No 3, 2023 | doi: 10.5365/wpsar.2023.14.3.1011https://ojs.wpro.who.int/ 7 COVID-19 and TB coinfection in Brunei DarussalamMani et al 14. Nabity SA, Han E, Lowenthal P, Henry H, Okoye N, Chakrabarty M, et al. Sociodemographic characteristics, comorbidities, and mortality among persons diagnosed with tuberculosis and COVID-19 in close succession in California, 2020. JAMA Netw Open. 2021;4(12):e2136853. doi:10.1001/jamanetworko- pen.2021.36853 pmid:34860244 15. Wang Y, Feng R, Xu J, Hou H, Feng H, Yang H. An updated meta-analysis on the association between tuberculosis and COV- ID-19 severity and mortality. J Med Virol. 2021;93(10):5682–6. doi:10.1002/jmv.27119 pmid:34061374 12. Ripa M, Galli L, Poli A, Oltolini C, Spagnuolo V, Mastran- gelo A, et al. Secondary infections in patients hospitalized with COVID-19: incidence and predictive factors. Clin Micro- biol Infect. 2021;27(3):451–7. doi:10.1016/j.cmi.2020.10.021 pmid:33223114 13. Koupaei M, Naimi A, Moafi N, Mohammadi P, Tabatabaei FS, Ghazizadeh S, et al. Clinical characteristics, diagnosis, treatment, and mortality rate of TB/COVID-19 coinfected patients: a system- atic review. Front Med (Lausanne). 2021;8:740593. doi:10.3389/ fmed.2021.740593 pmid:34926494