Extrapleural pneumolysis for cavitary pulmonary tuberculosis treatment

Objective. To increase efficiency of cavitary pulmonary tuberculosis treatment by developing modern indications and technology of extrapleural pneumolysis with filling material.

Material and Methods. We reviewed 25 patients with cavitary pulmonary tuberculosis and bacterial excretion who had undergone extrapleural pneumolysis with different types of filling material in 2004–2015. In 16 cases, we performed surgery in patients with one lung.

Results. 56% of operated patients demonstrated extensively drug-resistant TB, 40% had multidrug-resistant TB. Cavities were closed and bacterial excretion ceased in 92% of patients at discharge. Long-term results with observation period from 1 to 12 years were analyzed in 24 patients, 17 (71%) of them had complete clinical efficacy.

Conclusion. Extrapleural pneumolysis is a mini-invasive surgical treatment that can prove positive effect in patients with non-fibrotic changes in a cavity wall and pathological process in upper parts of the lungs. 

1. Stoyko NG. Surgical Treatment of Pulmonary Tuberculosis. A Guide for Doctors. Moscow: Medgiz; 1949:92–126. (In Russ.)

2. Tanaka H, Matsumura A, Iuchi K. Expanding hematoma after extraperiosteal paraffin plombage. Surg Today. 2006;36:586–9. PMID: 16794791. doi:10.1007/s00595-006-3216-7

3. Xie D, Huang D, Jiang G, Zhou X, Zhou Yi, Ding J. Thoracic wall abscess as a late complication of extrapleural plombage. Ann Thorac Surg. 2013;96:e107. PMID: 24088496. doi:10.1016/j.athoracsur.2013.07.032

4. Baer G. Über extrapleurale Pneumolyse mit sofortiger Plombierung bei Lungentuberkulose. Munch Med Wochenschr. 1913;60:87–9.

5. Malov AA. Extrapleural pneumolysis with plombage in the treatment of disseminated destructive pulmonary tuberculosis. Tuberk Biolezni Legkih. 2011;88(12):22–7. (In Russ.)

6. Kolkailah AA, Fugar S, Rey-Mendoza J, Campagnoli T, Fakhran Sh. Revisiting the evolution of tuberculosis therapy: historical reflections in the modern era. Oxf Med Case Reports. 2018;9:268–70. PMID: 30116542. PMCID: PMC6086088. doi:10.1093/omcr/omy055

7. Reis M, Tavares A, Ferreira L. One of the last cases of plombage. Acta Med Port. 2016;29:573. PMID: 28060698. doi:10.20344/amp.7340

8. Krasnov DV, Skvortsov DA, Krasnov VA, Grishchenko NG, Chernova MV. Mini-access osteoplastic thoracoplasty in the combination treatment of patients with fibrocavernous pulmonary tuberculosis. Tuberk Biolezni Legkih. 2014;5:42–6. (In Russ.)

9. Giller DB, Asanov BM, Giller GV, Martel II, Ots IO. Mini-invasive surgical treatments for bilateral destructive pulmonary tuberculosis. Tuberk Biolezni Legkih. 2010;87(5):52–9. (In Russ.)

10. Krasnikova EV, Bagirov MA, Lovacheva OV, Popova LA, Sadovnikova SS, Karpina NL. Efficiency of extrapleural plombage with silicone plug in destructive pulmonary tuberculosis patients and its impact on pulmonary functions and blood gases. Tuberk Biolezni Legkih. 2019;97(3):16–25. (In Russ.) doi:10.21292/2075-1230-2019-97-3-16-25

11. Sinitsyn MV, Agkatsev TV, Reshetnikov MN, et al. Extrapleural pneumolysis with filling in treatment of patients with destructive pulmonary tuberculosis. Khirurg = Surgeon. 2018;1–2:54–63. (In Russ.)

12. Shevchenko AA, Zhila NG, Shevchenko AV, Svistunova VP, Dribenets ES. Collapse therapy treatment of destructive lung tuberculosis. Dalnevostochny meditsinsky zhurnal = Far Eastern Medical Journal. 2014;4:113–6. (In Russ.)

13. Yerimbetov KD, Abildaev TSh, Bektursinov BU, Tursynbaeva AS, Abdullina AG. The implementation of silicone implant and valve bronchoblocation at collapsosurgical treatment of patients with extensively resistant tuberculosis (XDR TB). International Journal of Scientific Research. 2014;3(7):350–4. doi:10.15373/22778179/july2014/105

14. The role of surgery in the treatment of pulmonary TB and multidrug- and extensively drug-resistant TB. WHO Regional Office for Europe; 2004. Accessed 22 July 2013. Available from: http://www.euro.who.int/__data/assets/pdf_file/0005/259691/The-role-of-surgery-in-the-treatment-of-pulmonary-TB-and-multidrug-and-extensively-drug-resistant-TB.pdf?ua=1

15. Nechaeva OB, Gordina AV, Sterlikov SA, et al. Resources and activities of TB organizations of the Russian Federation in 2017–2018 (statistical materials). Moscow: RIO TSNIIOIZ; 2018. 101 p. (In Russ.)

16. Yablonsky PK, ed.; National Association of Phthisiologists, Association of Thoracic Surgeons of Russia. National Clinical Recommendations. Thoracic Surgery. Moscow: GEOTAR-Media; 2014. 156 p. (In Russ.)

17. Ivanov AV, Bykov VA, Chudnukh SM, Denisov-Nikolsky YuI, Vasilevsky VK, Rebrova GA, Vasilkov GL, Pekhtusov VA, Giller DB. Method for surgical treatment of patients at destructive forms of open tuberculosis. Russian patent no. 2290876. 2005 28 Aug. (In Russ.)

18. Ivanov AV, Giller DB, Gorshkov AV, Grinevich VN, Pekhtusov VA, Vasilkov GL, Giller GV, Giller BM, Tokaev KV, Bondarev GB. Device for long selective controlled collapse of lung. Russian patent no. 2338560. 2006 14 Aug. (In Russ.)

19. Giller DB, Giller BM, Giller GV, Papkov AV, Ivanov AV, Asanov BM, Glotov AF, Martel II, Tokaev KV. Method of correction volume of hemitоrax after resection of upper parts of lung. Russian patent no. 2397716. 2010 27 Aug. (In Russ.)

20. Giller DB, Ivanov AV, Giller BM, Giller GV, Tokaev KV, Bagirov MA, Bondarev GB. Method for extrapleural pneumolysis operation at pulmonary tuberculosis. Russian patent no. 2290878. 2006 3 Sept. (In Russ.)

21. Giller BM, Giller GV, Giller DB, Sumnaya DB. Method of extrapleural pneumolysis. Russian patent no. 2218106. 2002 5 Aug. (In Russ.)