2024 / 04

Next Paper
DOI: 10.24075/brsmu.2024.029

ORIGINAL RESEARCH

Discriminatory power of multiplex PCR for detection of mycobacterial co-infection

Smirnova TG1, Andreevskaya SN1, Ustinova VV1, Larionova EE1, Kiseleva EA1, Chernousova LN1, Ergeshov A1,2
About authors

1 Central Tuberculosis Research Institute, Moscow, Russia

2 Yevdokimov Moscow State University of Medicine and Dentistry, Moscow, Russia

Correspondence should be addressed: Tatiana G. Smirnova
Yauza alley, 2, str. 1A, Moscow, 107564, Russia; ur.liam@aktat_s

About paper

Funding: the study was conducted within the framework of the State Assignment of the Central Tuberculosis Research Institute, R&D project No. 122041100246-3 "Interspecific and intraspecific polymorphism of mycobacteria in patients with tuberculosis and mycobacteriosis receiving specific therapy"

Author contribution: Smirnova TG — experimental procedure (real-time PCR), data analysis, manuscript draft; Andreevskaya SN — literature review, data interpretation, review of publications on the issue; Ustinova VV — PCR; Larionova EE — data analysis; Kiseleva EA — model sample preparation; Chernousova LN, Ergeshov A — developing the study design; all authors contributed to discussion

Received: 2024-06-21 Accepted: 2024-07-16 Published online: 2024-08-04
|
  1. Global tuberculosis report 2023. Geneva: World Health Organization, 2023; 75 p.
  2. Smirnova TG, Andreevskaya SN, Larionova EE, Chernousova LN, Ergeshov A. Smeshannye populjacii mikobakterij u bol'nyh tuberkulezom i mikobakteriozom: chastota vyjavlenija i spektr vidov. Tuberkulez i social'no-znachimye zabolevanija. 2023; 2 (42): 19–24. Russian.
  3. Surkova LK, Zaluckaya OM, Skryagina EM, Nikolenko EN, Jackevich NV, Strinovich AL, i dr. Vydelenie i identifikacija netuberkuleznyh mikobakterij i diagnostika mikobakterioza legkih v Respublike Belarus'. Klinicheskaja infektologija i parazitologija. 2020; 9 (2): 161–9. Russian.
  4. Park SC, Kang MJ, Han CH, Lee SM, Kim CJ, Lee JM, et al. Park SC, Kang MJ, Han CH, Lee SM, Kim CJ, Lee JM, Kang YA. Prevalence, incidence, and mortality of nontuberculous mycobacterial infection in Korea: a nationwide population-based study. BMC Pulm Med. 2019; 19 (1): 140.
  5. Nasiri MJ, Dabiri H, Darban-Sarokhalil D, Hashemi Shahraki A. Prevalence of Non-Tuberculosis Mycobacterial Infections among Tuberculosis Suspects in Iran: Systematic Review and Meta-Analysis. PLoS One. 2015; 10 (6): e0129073.
  6. Brode SK, Daley CL, Marras TK. The epidemiologic relationship between tuberculosis and non-tuberculous mycobacterial disease: a systematic review. Int J Tuberc Lung Dis. 2014; 18 (11): 1370–7.
  7. Henkle E, Winthrop KL. Nontuberculous mycobacteria infections in immunosuppressed hosts. Clin Chest Med. 2015; 36 (1): 91–9.
  8. To K, Cao R, Yegiazaryan A, Owens J, Venketaraman V. General Overview of Nontuberculous Mycobacteria Opportunistic Pathogens: Mycobacterium avium and Mycobacterium abscessus. J Clin Med. 2020; 9 (8): 2541.
  9. Lin CK, Yang YH, Lu ML, Tsai YH, Hsieh MJ, Lee YC, et al. Incidence of nontuberculous mycobacterial disease and coinfection with tuberculosis in a tuberculosis-endemic region: A populationbased retrospective cohort study. Medicine (Baltimore). 2020; 99 (52): e23775.
  10. Ishiekwene C, Subran M, Ghitan M, Kuhn-Basti M, Chapnick E, Lin YS. Case report on pulmonary disease due to coinfection of Mycobacterium tuberculosis and Mycobacterium abscessus: Difficulty in diagnosis. Respir Med Case Rep. 2017; 20: 123–4.
  11. Jun HJ, Jeon K, Um SW, Kwon OJ, Lee NY, Koh WJ. Nontuberculous mycobacteria isolated during the treatment of pulmonary tuberculosis. Respir Med. 2009; 103 (12): 1936–40.
  12. Kurahara Y, Tachibana K, Tsuyuguchi K, Suzuki K. Mixed pulmonary infection with three types of nontuberculous mycobacteria. Intern Med. 2013; 52 (4): 507–10.
  13. Аndreevskaya SN, Larionova EE, Smirnova TG, Аndrievskaya IYu, Kiseleva EA, Chernousova LN. Lekarstvennaja chuvstvitel'nost' medlennorastushhih netuberkuleznyh mikobakterij. Tuberkulez i bolezni legkih. 2016; 94 (4): 43–50. Russian.
  14. Shahraki AH, Heidarieh P, Bostanabad SZ, Khosravi AD, Hashemzadeh M, Khandan S, et al. "Multidrug-resistant tuberculosis" may be nontuberculous mycobacteria. Eur J Intern Med. 2015; 26 (4): 279–84.
  15. Bazzi AM, Abulhamayel Y, Rabaan AA, Al-Tawfiq JA. The impact of the coexistence of mycobacterium avium with mycobacterium tuberculosis on the result of GeneXpert and MGIT susceptibility test. J Infect Public Health. 2020; 13 (5): 827–9.
  16. Makarova MV, Krasnova MA, Moroz AM. Sravnitel'nye dannye primenenija vysokojeffektivnoj zhidkostnoj hromatografii dlja identifikacii mikobakterij, vydelennyh na zhidkoj i plotnoj pitatel'nyh sredah. Tuberkulez i bolezni legkih. 2009; 86 (10): 46–48. Russian.
  17. Shitikov E, Ilina E, Chernousova L, Borovskaya A, Rukin I, Afanas'ev M, et al. Mass spectrometry based methods for the discrimination and typing of mycobacteria. Infect Genet Evol. 2012; 12 (4): 838–45.
  18. Smirnovа TG, Аndreevskаya SN, Lаrionovа EE, Аndrievskаya IYu, Ustinovа VV, Chernousovа LN. Monitoring vidovogo raznoobrazija netuberkuleznyh mikobakterij v rjade oblastej RF s ispol'zovaniem DNK-stripov Genotype Mycobacterium CM/AS (Hain Lifescience, Germanija). Tuberkulez i bolezni legkih. 2017; 95 (5): 54–59. Russian.
  19. Starkova DA, Zhuravlev YuV, Vyazovaya AA, Soloveva NS, Kulikova ON, Narvskaya OV. Vidovoe raznoobrazie netuberkuleznyh mikobakterij u bol'nyh mikobakteriozom na territorijah SeveroZapadnogo federal'nogo okruga Rossii. Tuberkulez i bolezni legkih. 2019; 97 (6): 16–22. Russian.
  20. Smirnova T, Ustinova V, Andreevskaya S, Larionova E, Kiseleva E, Chernousova L, et al. Evaluation of a new assay for nontuberculous mycobacteria species identification in diagnostic material and cultures. Tuberculosis (Edinb). 2021; 130: 102124.
  21. Guntupova LD, Borisov SE, Soloveva IP. Mikobakteriozy vo ftiziopul'monologicheskoj praktike: obzor literatury i sobstvennyj opyt. Prakticheskaja medicina. 2011; 51 (3): 39–50. Russian.
  22. Prikaz # 951 MZ RF ot 29.12.2014. Ob utverzhdenii metodicheskih rekomendacij po sovershenstvovaniju diagnostiki i lechenija tuberkuleza organov dyhanija. Russian.
  23. Sevastyanova YeV, Chernousova LN. Sovremennye algoritmy mikrobiologicheskoj diagnostiki tuberkuleza. Tuberkuljoz i bolezni ljogkih. 2018; 96 (7): 11–17. Russian.
  24. Ergeshov AE, Chernousova LN, Andreevskaya SN. Novye tehnologii diagnostiki lekarstvenno-ustojchivogo tuberkuleza. Vestnik Rossijskoj akademii medicinskih nauk. 2019; 74 (6): 413–22. Russian.
  25. Ergeshov AE, Andreevskaya SN, Smirnova TG, Chernousova LN. Tuberkulez s lekarstvennoj ustojchivost'ju vozbuditelja: mehanizmy formirovanija i metody molekuljarno-geneticheskoj diagnostiki. Vestnik Rossijskoj akademii medicinskih nauk. 2023; 78 (6): 609– 20. Russian.
  26. Liang Q, Shang Y, Huo F, Xue Y, Li Y, Dong L, et al. Assessment of current diagnostic algorithm for detection of mixed infection with Mycobacterium tuberculosis and nontuberculous mycobacteria. J Infect Public Health. 2020; 13 (12): 1967–71.