Transthoracic Lung node biopsy under navigation of C-arm based universal angiographic complex

The objective was to study the possibilities of using the C-arm based universal angiographic complex as a navigation system in transthoracic biopsies of pulmonary nodules.

Methods and materials. The study is based on the data of 60 patients with lesion size from 10 to 103 mm (mean 51 mm) have been underwent the transthoracic biopsy using C-arm based universal angiographic complex navigation. A total of 69 biopsies were performed (60 primary, 9 repeated). The procedure was made with local anesthesia in an interventional operating room. The postoperative observation time was 1 day.

Results. A tissue sample was got in all cases. As a result of a biopsy, a malignant tumor was confirmed in 70 % of patients (42 people). At the primary biopsy, data for the malignant process were not obtained in 30 % (18 people), however, in half of the cases (9 people), the diagnosis of a malignant tumor was confirmed after repeated biopsy. The radiation dose received by the patient was 2.05-60.50 mSv (mean 13.94mSv), which is comparable to the radiation dose in traditional CT navigation and less than the average dose of radiation obtained using CT fluoroscopy. Sensitivity, specificity, accuracy were 82.35, 100 и 35 % respectively. Complications occurred in 18 cases (26.09 %). There was no need to perform interventions under general anesthesia. Transfer of patients to the intensive care unit was not required. No fatal complications occurred.

Conclusion. This navigation system is safe and effective and can be used routinely.

1. Kaprin A. D., Starinskii V. V., Petrova G. V., eds. Sostoyanie onkol-ogicheskoi pomoshchi naseleniyu Rossii v 2018 godu. Moscow, MNIOI imeni P. A. Gertsena - filial FGBU «NMITs radiologii» Minzdrava Rossii, 2019:236. (In Russ.).

2. Kaprin A. D., Starinskii V. V., Petrova G. V., eds. Zlokachestvennye novoobrazovaniya v Rossii v 2017 godu (zabolevaemost' i smertnost'). Moscow, MNIOI imeni P. A. Gertsena - filial FGBU «NMITs radiologii» Minzdrava Rossii, 2018:250. (In Russ.).

3. Ganul V. L., Bororov L. V., Ganul A. V., Borisyuk B. A., Sovenko V. M., Shevchenko A. I., Semivolos A. V., Kobzev O. I., Kondratskii Yu. N. Tselesoobraznost' khirurgicheskogo udale-nya metastazov zlokachestvennykh novoobrazovanii v legkie. Klinicheskaya onkologya. 2012;1(5):5-7. (In Russ.).

4. Baaklini W. A., Reinoso M. A., Gorin A. B., Sharafkaneh A., Manian P. Diagnostic yield of fiberoptic bronchoscopy in evaluating solitary pulmonary nodules. Chest. 2000;4(117):1049-1054.

5. Takeshita J., Masago K., Kato R., Hata A., Kaji R., Fujita S., Katakami N. CT-guided fine-needle aspiration and core needle biopsies of pulmonary lesions: A single-center experience with 750 biopsies in Japan. AJR Am J Roentgenol. 2015;1(204):29-34.

6. Levchenko E. V. Skrining raka legkogo. Prakticheskaya onkologiya. 2010;2(11):88-95. (In Russ.).

7. Crapanzano J. P., Heymann J. J., Monaco S., Nassar A., Saqi A. The state of cell block variation and satisfaction in the era of molecular diagnostics and personalized medicine. CytoJournal. 2014;1(11):7.

8. Yang W., Sun W., Li Q., Yao Y., Lv T., Zeng J., Liang W., Zhou X., Song Y. Diagnostic accuracy of CT-guided transthoracic needle biopsy for solitary pulmonary nodules. PLoS One. 2015;6(10):1-9.

9. Zhang H. F., Zeng X. T., Xing F., Fan N., Liao M. Y. The diagnostic accuracy of CT-guided percutaneous core needle biopsy and fine needle aspiration in pulmonary lesions: A meta-analysis. Clin Radiol. 2016;1(71):e1-e10.

10. Poulou L. S., Tsagouli P, Ziakas P. D., Politi D., Trigidou R., Thanos L. Computed tomography-guided needle aspiration and biopsy of pulmonary lesions: A single-center experience in 1000 patients. Acta Radiol. 2013;6(54):640-645.

11. Tian P., Wang Y., Li L., Zhou Y., Luo W., Li W. CT-guided transthoracic core needle biopsy for small pulmonary lesions: Diagnostic performance and adequacy for molecular testing. J Thorac Dis. 2017;2(9):333-343.

12. Dindo D., Demartines N., Clavien P. A. Classification of surgical complications: A new proposal with evaluation in a cohort of 6336 patients and results of a survey. Ann Surg 2004;240:205-213.

13. Kim G. R., Hur J., Lee S. M., Lee H. J., Hong Y. J., Nam J. E., Kim H. S., Kim Y. J., Choi B. W., Kim T. H., Choe K. O. CT fluoroscopy-guided lung biopsy versus conventional CT-guided lung biopsy: A prospective controlled study to assess radiation doses and diagnostic performance. Eur Radiol. 2011;2(21):232-239.

14. Kirchner J., Kickuth R., Laufer U., Schilling E.M., Adams S., Lier-mann D. CT fluoroscopy-assisted puncture of thoracic and abdominal masses: A randomized trial. Clin Radiol. 2002;3(57):188-192.