Об авторах
Дуденко Елена Вячеславовна, старший научный сотрудник лаборатории иммунологии и молекулярной биологии Национального центра фтизиатрии МЗ КР, Бишкек, Кыргызская Республика
Dudenko Elena Vyacheslavovna, Senior Researcher, Laboratory of Immunology and Molecular Biology, National Center for Phthisiology, Ministry of Health of the Kyrgyz Republic, Bishkek, Kyrgyz Republic
Дуденко Елена Вячеславовна, улук илимий кызматкер, иммунология жана молекулалык биология лабораториясы, Кыргыз Республикасынын Саламаттык сактоо министрлигинин Улуттук фтизиатрия борбору, Бишкек, Кыргыз Республикасы
Список литературы
1. Moonan P.K. Tuberculosis – the face of struggles, the struggles we face, and the dreams that lie within. Emerging infectious diseases, 2018, vol. 24, no. 3, pp. 592-593. Available from: www.edc.gov.eid. ncbi.nlm.nih.gov/pmc/ articles/PMC5823327/ pdf/170128.
2. Соловьева Т.Н., Козлова Н.В., Елькин А.В., Барнаулов А.О. Диагностика инфильтративного туберкулеза легких в современных условиях. Вестник СЗГМУ им. И. И. Мечникова, 2013, том. 5, №3, С. 79-83. [Solovyova T.N., Kozlova N.V., Elkin A.V., Barnaulov A.O. Diagnostika infil'trativnogo tuberkuleza legkikh v sovremennykh usloviyakh [Diagnosis tuberculosis pulmonis infiltrativae in modernis conditionibus] Vestnik SZGMU, 2013, vol. 5, no. III, pp. 79-83.]
3. Sivokozov I., Shumskaya I., Lovacheva O., Evgushenko E., Chernousova L. Efficacy of endoscopic diagnostics in smear-negative TB. Eur. Respire. J, 2014, vol. 44, no. 58, pp. 26-30.
4. Velayat A.A., Farnia P., Masiedi M.R. Reccurence after treatment success in pulmonary multidrugresistent tuberculosis: predicationby continual PCR positivity. Int. j. Clin. Exp. Med, 2012, vol. 5, no. 3, pp. 271-272.
5. Ekrami A., Samarbaf-Zadeh A.R., Khosravi A., Zardar B., Alavi M., Amin M. Validity of bioconjugated silica nanoparticles in comparison with direct smear, culture and polymerase chain reaction for detection of mycobacterium tuberculosis in sputum specimens. Int. j. Nanomed, 2011, no. 6, pp. 2729-2735.
6. Galimi R. Extrapulmonary tuberculosis: tuberculous meningitis new developments. Eur. Rev. Med. Pharmaco, 2011, no. 4, pp. 365-386.
7. Miotto P., Bigoni S., Migliori G.B., Mattelli A., Cirillo D.M. Early tuberculosis treatment monitoring by Xpert® MTB/RIF.
European respiratory j, 2012, vol. 39, no. 5, pp. 1269-1271. Available from: http: // erj.ersjournals.com / content / 39 / 5 / 1269.
8. Серегина В.А., Будрицкий А.М. Современные возможности диагностики туберкулеза легких. Вестник ВГМУ, 2016, том.15, №4, С. 7-17. [Seregina V.A., Budritsky A.M. Sovremennye vozmozhnosti diagnostiki tuberkuleza legkih [Modern possibilitates diagnosis tuberculosis pulmonis] Vestnik VGMU, 2016, vol. 15. no. 4, pp. 7-17.]
9. Costa P., Botelho A., Couto I., Viveiros M., Inacio J. Standing of nucleic acid testing strategies in veterinary diagnosis laboratories to uncover Mycobacterium tuberculosis complex members. Front. Mol. Biosci, 2014, vol. 1, no. 16, pp. 1-18.
10. Балина Т.А., Морсковатых Н.И. Туберкулез как индикатор качества жизни населения. Географический аспект изучения. Географический вестник, 2013, Выпуск 4, №27, С. 9-16. [Balina T.A., Morskovatyh N.I. Tuberkulez kak indicator kachestva zhizni naseleniya. Geograficheskiy aspect izucheniya [Tuberculosis ut indicator qualitatis vitae incolarum. Geographica ratio studiorum] Geograficheskiy vestnik, 2013, Vipusk 4, no. 27, pp. 9-16.]
11. Chaskara P., Rongpharpib S.R., Duggalb S. Immunologic basis of tuberculosis: disease and the treatment paradox. Reviews in medical microbiology, 2014, no. 25, pp. 108–112.
12. Fraga A.G., Barbosa M., Ferreno C.M., Pedrosa I., Torrado E. Immune evasion strategies of mycobacteria and their implications for the protective immune response. Curr. Iss. Molec. Biology, 2018, vol. 25, pp. 169-198.
13. Nyendak M.R., Park B., Null M.D. Mycobacterium tuberculosis specific CD8+ T cells rapidly decline with antituberculosis treatment. Plos one, 2013, vol. 8, no. 12, pp. 1-10. Available from: www. plosone. org / doi / 10.1371 / journal. pone 0081564.
14. Yin Y., Qin J., Dai Y. The CD4+/CD8+ Ratio in Pulmonary Tuberculosis: Systematic and Meta-Analysis. Iranian J of public health, 2015, vol. 44, no. 2, pp. 185-193. Available from: http: // ijph. tums. ac. ir / index. php / IJPH / article / view / 8454.
15. Qiu Z., Zhang, M., Zhu Y. Multifunctional CD4 T cell responses in patient with active tuberculosis. Scientific reports, 2012, no. 2, article no. 216.: Available from: www. nature. com / doi:10.1038 / srep 00216.
16. Титаренко О.Т., Дьякова М.Е., Эсмедляева Д.С. Характер воспалительного ответа в зависимости от свойств микобактерий туберкулеза и течения специфического процесса. Биомедицинская химия, 2013, том. 59, №4, С. 469-478. Режим доступа: pbmc. ibmc. msk. ru / index. pxp / ru / article / PBMC / 2013 – 59 – 4 – 469 – ru [Титаренко О.Т., Дьякова М.Е., Эсмедляева Д.С. Характер воспалительного ответа в зависимости от свойств микобактерий туберкулеза и течения специфического процесса. Биомедицинская химия, 2013, том. 59, №4, С. 469-478. Режим доступа: pbmc. ibmc. msk. ru / index. pxp / ru /article/ PBMC / 2013 – 59 – 4 – 469 – ru]
1. Moonan P.K. Tuberculosis – the face of struggles, the struggles we face, and the dreams that lie within. Emerging infectious diseases, 2018, vol. 24, no. 3, pp. 592-593. Available from: www.edc.gov.eid. ncbi.nlm.nih.gov/pmc/ articles/PMC5823327/ pdf/170128.
2. Solovyova T.N., Kozlova N.V., Elkin A.V., Barnaulov A.O. Diagnostika infil'trativnogo tuberkuleza legkih v sovremennyh usloviyah [Diagnosis of infiltrative pulmonary tuberculosis in modern conditions] Vestnik SZGMU, 2013, vol. 5, no. 3, pp. 79-83.
3. Sivokozov I., Shumskaya I., Lovacheva O., Evgushenko E., Chernousova L. Efficacy of endoscopic diagnostics in smear-negative TB. Eur. Respire. J, 2014, vol. 44, no. 58, pp. 26-30.
4. Velayat A.A., Farnia P., Masiedi M.R. Reccurence after treatment success in pulmonary multidrugresistent tuberculosis: predicationby continual PCR positivity. Int. j. Clin. Exp. Med, 2012, vol. 5, no. 3, pp. 271-272.
5. Ekrami A., Samarbaf-Zadeh A.R., Khosravi A., Zardar B., Alavi M., Amin M. Validity of bioconjugated silica nanoparticles in comparison with direct smear, culture and polymerase chain reaction for detection of mycobacterium tuberculosis in sputum specimens. Int. j. Nanomed, 2011, no. 6, pp. 2729-2735.
6. Galimi R. Extrapulmonary tuberculosis: tuberculous meningitis new developments. Eur. Rev. Med. Pharmaco, 2011, no. 4, pp. 365-386.
7. Miotto P., Bigoni S., Migliori G.B., Mattelli A., Cirillo D.M. Early tuberculosis treatment monitoring by Xpert® MTB/RIF.
European respiratory j, 2012, vol. 39, no. 5, pp. 1269-1271. Available from: http: // erj.ersjournals.com / content / 39 / 5 / 1269.
8. Seregina V.A., Budritsky A.M. Sovremennye vozmozhnosti diagnostiki tuberkuleza legkih [Modern possibilities of diagnosis of pulmonary tuberculosis] Vestnik VGMU, 2016, vol. 15, no. 4, pp. 7-17.
9. Costa P., Botelho A., Couto I., Viveiros M., Inacio J. Standing of nucleic acid testing strategies in veterinary diagnosis laboratories to uncover Mycobacterium tuberculosis complex members. Front. Mol. Biosci, 2014, vol. 1, no. 16, pp. 1-18.
10. Balina T.A., Morskovatyh N.I.. Tuberkulez kak indicator kachestva zhizni naseleniya. Geograficheskiy aspect izucheniya [Tuberculosis as an indicator of the quality of life of the population. Geographical aspect of the study] Geograficheskiy vestnik, 2013,Vipusk 4, no27. - pp. 9-16.
11. Chaskara P., Rongpharpib S.R., Duggalb S. Immunologic basis of tuberculosis: disease and the treatment paradox. Reviews in medical microbiology, 2014, no. 25, pp. 108–112.
12. Fraga A.G., Barbosa M., Ferreno C.M., Pedrosa I., Torrado E. Immune evasion strategies of mycobacteria and their implications for the protective immune response. Curr. Iss. Molec. Biology, 2018, vol. 25, pp. 169-198.
13. Nyendak M.R., Park B., Null M.D. Mycobacterium tuberculosis specific CD8+ T cells rapidly decline with antituberculosis treatment. Plos one, 2013, vol. 8, no. 12, pp. 1-10. Available from: www. plosone. org / doi / 10.1371 / journal. pone 0081564.
14. Yin Y., Qin J., Dai Y. The CD4+/CD8+ Ratio in Pulmonary Tuberculosis: Systematic and Meta-Analysis. Iranian J of public health, 2015, vol. 44, no. 2, pp. 185-193. Available from: http: // ijph. tums. ac. ir / index. php / IJPH / article / view / 8454.
15. Qiu Z., Zhang, M., Zhu Y. Multifunctional CD4 T cell responses in patient with active tuberculosis. Scientific reports, 2012, no. 2, article no. 216.: Available from: www. nature. com / doi:10.1038 / srep 00216.
16.Titarenko O.T., D'yakova M.E., Esmedlyaeva D.S. Harakter vospalitel'nogo otveta v zavisimosti ot svojstv mikobakterij tuberkuleza i techeniya specificheskogo processa [The nature of the inflammatory response depending on the properties of Mycobacterium tuberculosis and the course of a specific process] Biomedicinskaya himiya, 2013, vol. 59, no. 4, pp. 469-478. Available from: pbmc.ibmc. msk. ru / index. pxp / ru / article / PBMC / 2013 – 59 – 4 – 469 – ru
1. Moonan P.K. Tuberculosis – the face of struggles, the struggles we face, and the dreams that lie within. Emerging infectious diseases, 2018, vol. 24, no. 3, pp. 592-593. Available from: www.edc.gov.eid. ncbi.nlm.nih.gov/pmc/ articles/PMC5823327/ pdf/170128.
2. Соловьева Т.Н., Козлова Н.В., Елькин А.В., Барнаулов А.О. Диагностика инфильтративного туберкулеза легких в современных условиях. Вестник СЗГМУ им. И. И. Мечникова, 2013, том. 5, №3, С. 79-83. [Solovyova T.N., Kozlova N.V., Elkin A.V., Barnaulov A.O. Diagnostika infil'trativnogo tuberkuleza legkikh v sovremennykh usloviyakh [Diagnosis tuberculosis pulmonis infiltrativae in modernis conditionibus] Vestnik SZGMU, 2013, vol. 5, no. III, pp. 79-83.]
3. Sivokozov I., Shumskaya I., Lovacheva O., Evgushenko E., Chernousova L. Efficacy of endoscopic diagnostics in smear-negative TB. Eur. Respire. J, 2014, vol. 44, no. 58, pp. 26-30.
4. Velayat A.A., Farnia P., Masiedi M.R. Reccurence after treatment success in pulmonary multidrugresistent tuberculosis: predicationby continual PCR positivity. Int. j. Clin. Exp. Med, 2012, vol. 5, no. 3, pp. 271-272.
5. Ekrami A., Samarbaf-Zadeh A.R., Khosravi A., Zardar B., Alavi M., Amin M. Validity of bioconjugated silica nanoparticles in comparison with direct smear, culture and polymerase chain reaction for detection of mycobacterium tuberculosis in sputum specimens. Int. j. Nanomed, 2011, no. 6, pp. 2729-2735.
6. Galimi R. Extrapulmonary tuberculosis: tuberculous meningitis new developments. Eur. Rev. Med. Pharmaco, 2011, no. 4, pp. 365-386.
7. Miotto P., Bigoni S., Migliori G.B., Mattelli A., Cirillo D.M. Early tuberculosis treatment monitoring by Xpert® MTB/RIF.
European respiratory j, 2012, vol. 39, no. 5, pp. 1269-1271. Available from: http: // erj.ersjournals.com / content / 39 / 5 / 1269.
8. Серегина В.А., Будрицкий А.М. Современные возможности диагностики туберкулеза легких. Вестник ВГМУ, 2016, том.15, №4, С. 7-17. [Seregina V.A., Budritsky A.M. Sovremennye vozmozhnosti diagnostiki tuberkuleza legkih [Modern possibilitates diagnosis tuberculosis pulmonis] Vestnik VGMU, 2016, vol. 15. no. 4, pp. 7-17.]
9. Costa P., Botelho A., Couto I., Viveiros M., Inacio J. Standing of nucleic acid testing strategies in veterinary diagnosis laboratories to uncover Mycobacterium tuberculosis complex members. Front. Mol. Biosci, 2014, vol. 1, no. 16, pp. 1-18.
10. Балина Т.А., Морсковатых Н.И. Туберкулез как индикатор качества жизни населения. Географический аспект изучения. Географический вестник, 2013, Выпуск 4, №27, С. 9-16. [Balina T.A., Morskovatyh N.I. Tuberkulez kak indicator kachestva zhizni naseleniya. Geograficheskiy aspect izucheniya [Tuberculosis ut indicator qualitatis vitae incolarum. Geographica ratio studiorum] Geograficheskiy vestnik, 2013, Vipusk 4, no. 27, pp. 9-16.]
11. Chaskara P., Rongpharpib S.R., Duggalb S. Immunologic basis of tuberculosis: disease and the treatment paradox. Reviews in medical microbiology, 2014, no. 25, pp. 108–112.
12. Fraga A.G., Barbosa M., Ferreno C.M., Pedrosa I., Torrado E. Immune evasion strategies of mycobacteria and their implications for the protective immune response. Curr. Iss. Molec. Biology, 2018, vol. 25, pp. 169-198.
13. Nyendak M.R., Park B., Null M.D. Mycobacterium tuberculosis specific CD8+ T cells rapidly decline with antituberculosis treatment. Plos one, 2013, vol. 8, no. 12, pp. 1-10. Available from: www. plosone. org / doi / 10.1371 / journal. pone 0081564.
14. Yin Y., Qin J., Dai Y. The CD4+/CD8+ Ratio in Pulmonary Tuberculosis: Systematic and Meta-Analysis. Iranian J of public health, 2015, vol. 44, no. 2, pp. 185-193. Available from: http: // ijph. tums. ac. ir / index. php / IJPH / article / view / 8454.
15. Qiu Z., Zhang, M., Zhu Y. Multifunctional CD4 T cell responses in patient with active tuberculosis. Scientific reports, 2012, no. 2, article no. 216.: Available from: www. nature. com / doi:10.1038 / srep 00216.
16. Титаренко О.Т., Дьякова М.Е., Эсмедляева Д.С. Характер воспалительного ответа в зависимости от свойств микобактерий туберкулеза и течения специфического процесса. Биомедицинская химия, 2013, том. 59, №4, С. 469-478. Режим доступа: pbmc. ibmc. msk. ru / index. pxp / ru / article / PBMC / 2013 – 59 – 4 – 469 – ru [Титаренко О.Т., Дьякова М.Е., Эсмедляева Д.С. Характер воспалительного ответа в зависимости от свойств микобактерий туберкулеза и течения специфического процесса. Биомедицинская химия, 2013, том. 59, №4, С. 469-478. Режим доступа: pbmc. ibmc. msk. ru / index. pxp / ru /article/ PBMC / 2013 – 59 – 4 – 469 – ru]