Tuberculosis and Respiratory Diseases

The Korean Academy of Tuberculosis and Respiratory Diseases (대한결핵및호흡기학회)
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The Utility of Pleural Fluid Cell IFN-γ Production Assay in the Diagnosis of Tuberculous Pleurisy

결핵성 흉막염의 진단에서 결핵균 항원 자극에 의한 흉수 세포의 IFN-γ 분비 검사의 유용성

  • Park, Jae Seuk (Department of Internal Medicine, Dankook University College of Medicine) ;
  • Kim, Youn Seup (Department of Internal Medicine, Dankook University College of Medicine) ;
  • Jee, Young Koo (Department of Internal Medicine, Dankook University College of Medicine) ;
  • Lee, Kye Young (Department of Internal Medicine, Dankook University College of Medicine) ;
  • Choi, Jooyoung (Department of Microbiology, Yonsei University College of Medicine) ;
  • Cho, Sungae (Department of Microbiology, Yonsei University College of Medicine) ;
  • Cho, Sang-Nae (Department of Microbiology, Yonsei University College of Medicine)
  • 박재석 (단국대학교 의과대학 내과학교실) ;
  • 김윤섭 (단국대학교 의과대학 내과학교실) ;
  • 지영구 (단국대학교 의과대학 내과학교실) ;
  • 이계영 (단국대학교 의과대학 내과학교실) ;
  • 최주영 (연세대학교 의과대학 미생물학교실) ;
  • 조성애 (연세대학교 의과대학 미생물학교실) ;
  • 조상래 (연세대학교 의과대학 미생물학교실)
  • Received : 2005.06.09
  • Accepted : 2005.04.10
  • Published : 2005.08.30
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Abstract

Background : Diagnosis of tuberculous pleurisy is sometimes difficult using conventional diagnostic methods. We have investigated the utility of pleural fluid cell $IFN-{\gamma}$ production assay in the diagnosis of tuberculous pleurisy. Methods : We prospectively performed pleural fluid cell $IFN-{\gamma}$ production assay in 39 patients with tuberculous pleural effusions (TPE) and in 26 patients with nontuberculous pleural effusions (NTPE) (13 malignant pleural effusions and 13 parapneumonic effusions). Pleural fluid cells were cultured in DMEM media and stimulated with purified protein derivatives (PPD), and phytohemagglutinin (PHA) for 24 hr. The amount of $IFN-{\gamma}$ released in the culture supernatant was quantitated by $IFN-{\gamma}$ ELISA assay. We have also measured adenosine deaminase (ADA) activities and $IFN-{\gamma}$ concentrations in the pleural fluid. Results : 1) The pleural fluid levels of ADA activity and $IFN-{\gamma}$ concentrations were significantly higher in TPE than NTPE (p<0.01). 2) $IFN-{\gamma}$ production in TPE cells stimulated by PPD ($755,266{\pm}886,636pg/ml$) was significantly higher than NTPE cells ($3,509{\pm}6,980pg/ml$) (p<0.01). By considering the fact that $IFN-{\gamma}$ concentrations over 10,000 pg/ml is a criteria for the diagnosis of TBE, sensitivity and specificity of the test were 97.4 and 92.3%, respectively. 3) The ratios of $IFN-{\gamma}$ production by the stimulation with PPD and PHA (PPD/PHA) were significantly higher in TPE cells ($59{\pm}85$) than NTPE cells ($5{\pm}18$)(p<0.01). Considering the criteria for the diagnosis of TBE as PPD/PHA ratio over 5, sensitivity and specificity of the test were 76.9 and 92.3%, respectively. Conclusion : Pleural fluid cell $IFN-{\gamma}$ production assay may be useful for the diagnosis of tuberculous pleurisy.

연구배경 : 결핵균 항원자극에 의한 흉수 세포의 $IFN-{\gamma}$ 분비검사가 결핵성 흉막염과 다른 원인의 흉수의 감별진단에 유용한지 알아보고자 하였다. 방 법 : 39명의 결핵성 흉막염 환자와 비결핵성 흉수를 보인 26명의 환자(부폐렴성 흉수 13명, 암성 흉수 13명)들의 흉수세포를 분리하여 배양하면서 PPD와 PHA로 24시간 자극한 후 배양상층액의 $IFN-{\gamma}$ 농도를 ELISA 방법으로 측정하였다. 결 과 : 1) 결핵성 흉수의 ADA 활성도 및 $IFN-{\gamma}$ 농도는 비결핵성 흉수보다 높았다(p < 0.01). 2) PPD로 흉수세포들을 자극하였을 때 분비되는 $IFN-{\gamma}$ 농도는 결핵성 흉수($755,266{\pm}886,636pg/ml$)에서 비결핵성 흉수($3,509{\pm}6,980pg/ml$)보다 높았다(p<0.01). 결핵성 흉막염의 진단기준을 $IFN-{\gamma}$ 농도가 10,000 pg/ml 이상인 경우로 정의하였을 경우 민감도는 97.4%, 특이도는 92.3%였다. 3) PPD 자극에 의한 흉수세포의 $IFN-{\gamma}$ 분비를 PHA로 자극하였을 때의 $IFN-{\gamma}$ 분비에 대한 비로 비교하였을 때 결핵성 흉수($59{\pm}85$)에서 비결핵성 흉수($5{\pm}18$)보다 높았다(p<0.01). 결핵성 흉막염의 진단기준을 PPD/PHA 비가 5이상인 경우로 정의하였을 경우 민감도는 76.9%, 특이도는 92.3%였다. 결 론 : 결핵균 항원 자극에 의한 흉수세포 $IFN-{\gamma}$ 분비검사는 결핵성 흉막염의 진단에 이용될 수 있을 것이다.

Keywords

References

  1. Yew WW, Chan CY, Kwan SY, Cheung SW, French GL. Diagnosis of tuberculous pleural effusion by the detection of tuberculostearic acid in pleural aspirates. Chest 1991;100:1261-3 https://doi.org/10.1378/chest.100.5.1261
  2. Escudero-Bueno C, Garain-Clemente M, Cuesta-Castro B, Molinos Martin L, Rodriguez Ramos S, Gonzalez Panizo A, et al. Cytologic and bacteriologic analysis of fluid and pleural biopsy with cop's needle. Arch Intern Med 1990;150:1190-4 https://doi.org/10.1001/archinte.150.6.1190
  3. Chan CH, Arnold M, Chan CY, Mak TW, Hoheisel GB. Clinical and pathological features of tuberculous pleural effusions and its long-term consequences. Respiration 1991;58:171-5 https://doi.org/10.1159/000195921
  4. Ankobiah WA, Finch P, Powell S, Heurich A, Shivaram I, Kamholz SL. Pleural tuberculosis in patients with and without AIDS. J Assoc Minor Phys 1990;1:20-3
  5. de Wit D, Maartens G, Steyn L. A comparative study of the polymerase chain reaction and conventional procedures for tuberculous pleural effusion. Tuber Lung Dis 1992;73:262-7 https://doi.org/10.1016/0962-8479(92)90130-C
  6. Diacon AH, van de Wal BW, Wyser C, Smedema JP, Benzuidenhout J, Bolliger CT, et al. Diagnostic tools in tuberculous pleurisy: a direct comparative study. Eur Respir J 2003;22:589-91 https://doi.org/10.1183/09031936.03.00017103a
  7. Flynn JL, Chan J. Immunology of tuberculosis. Annu Rev Immunol 2001;19:93-129 https://doi.org/10.1146/annurev.immunol.19.1.93
  8. Hiraki A, Aoe K, Eda R, Maeda T, Murakami T, Sugi K, et al. Comparison of six biological markers for the diagnosis of tuberculous pleuritis. Chest 2004;125:987-9 https://doi.org/10.1378/chest.125.3.987
  9. Barnes PF, Mistry SD, Cooper CL, Pirmez C, Rea TH, Modlin RL. Compartmentalization of a CD4+ T lymphocyte subpopulation in tuberculous pleuritis. J Immunol 1989;142:1114-9
  10. Kim MH, Kim SJ, Park YK, Kim SC, Lee SY, Kim YK, et al. The levels of interferon-gamma, interleukin-2 receptor, interleukin-6 and interleukin-10 in the patients with malignant pleural effusion, tuberculous effusion, parapneumonic effusion, and lung empyema? Tuberc Respir Dis 2000;49:568-75 https://doi.org/10.4046/trd.2000.49.5.568
  11. Villegas MV, Labrada LA, Saravia MG. Evaluation of polymerase chain reaction, adenosine deaminase, and interferon-gamma in pleural fluid for the differential diagnosis of pleural tuberculosis. Chest 2000;118:1355-64 https://doi.org/10.1378/chest.118.5.1355
  12. Park JS, Kim YS, Jee YK, Lee KY. IFN-gamma mRNA expression in tuberculous pleural lymphocytes after in vitro stimulation with M. tuberculosis antigens. Tuberc Respir Dis 2004;57:25-31 https://doi.org/10.4046/trd.2004.57.1.25
  13. Barnes PF, Lu S, Abrams JS, Wang E, Yamamura M, Modlin RL. Cytokine production at the site of disease in human tuberculosis. Infect Immun 1993;61:3482-9
  14. Arruda S, Chalhoub M, Cardoso S, Barral-Netto M. Cell mediated immune responses and cytotoxicity to mycobacterial antigens in patients with tuberculous pleurisy in Brazil. Acta Trop 1998;71:1-15 https://doi.org/10.1016/S0001-706X(98)00047-3
  15. Rittgers RA, Loewenstein MS, Feinerman AE, Kupchik HZ, Marcel BR, Koff RS, et al. Carcinoembryonic antigen levels in benign and malignant pleural effusions. Ann Intern Med 1978;88:631-4 https://doi.org/10.7326/0003-4819-88-5-631
  16. Chen ML, Yu WC, Lam CW, Au KM, Kong FY, Chan AY. Diagnostic value of pleural fluid adenosine deaminase activity in tuberculous pleurisy. Clin Chim Acta 2004;341:101-7 https://doi.org/10.1016/j.cccn.2003.11.016
  17. Maartens G, Bateman ED. Tuberculous pleural effusions: increased culture yield with bedside inoculation of pleural fluid and poor diagnostic value of adenosine deaminase. Thorax 1991;46:96-9 https://doi.org/10.1136/thx.46.2.96
  18. Baganha MF, Pego A, Lima MA, Gaspar EV, Cordeiro AR. Serum and pleural adenosine deaminase: correlation with lymphocyte populations. Chest 1990;97:605-10 https://doi.org/10.1378/chest.97.3.605
  19. Hsu WH, Chiang CD, Huang PL. Diagnostic value of pleural adenosine deaminase in tuberculous effusions of immunocompromised host. J Formos Med Assoc 1993;92:668-70
  20. Yeon KM, Kim CJ, Kim JS, Kim CH. Influence of age on the adenosine deaminase activity in patients with exudative pleural effusion. Tuberc Respir Dis 2002;53:530-41 https://doi.org/10.4046/trd.2002.53.5.530
  21. Villena V, Lopez-Encuentra A, Pozo F, Echave-Sustaneta J, Ortuno-de-Solo B, Estenoz-Alfaro J, et al. Interferon gamma level in pleural fluid for the diagnosis of tuberculosis. Am J Med 2003;115:365-70 https://doi.org/10.1016/S0002-9343(03)00423-6
  22. Desem N, Jones SL. Development of a human gamma interferon enzyme immunoassay and comparison with tuberculin skin testing for detection of Mycobacterium tuberculosis infection. Clin Diagn Lab Immunol 1998;5:531-6
  23. Dheda K, Udwadia ZF, Huggett JF, Johnson MA, Rook GA. Utility of the antigen-specific interferon-gamma assay for the management of tuberculosis. Curr Opin Pulm Med 2005;11:195-202 https://doi.org/10.1097/01.mcp.0000158726.13159.5e
  24. Wilkinson KA, Wilkinson RJ, Pathan A, Ewer K, Prakash M, Klenerman P, et al. Ex vivo characterization of early secretory antigen target 6-specific T cells at sites of active disease in pleural tuberculosis. Clin Infect Dis 2005;40:184-7 https://doi.org/10.1086/426139