Federal State Fiscal Military Educational Establishment
of Higher Professional Education “Military Medical Academy after S.M. Kirov”
of the Ministry of Defense of the Russian Federation
6 Academician Lebedev Street, Saint Petersburg, Russia, 194044
* Federal Department for Safe Storage and Destruction of Chemical Weapons at the Ministry of Industry and Commerce of the Russian Federation
4a Sadovniki Street, Moscow, Russia, 115487
Brief summary
The analysis of cardiovascular organs primary morbidity of the personnel employed at works with highly toxic chemicals has been conducted. It has been determined that the leading place by the cardiovascular morbidity level belongs to arterial hypertensions group as well as ischemic heart disease and vascular atherosclerosis.
Key words
The analysis of cardiovascular organs primary morbidity of the personnel employed at works with highly toxic chemicals has been conducted. It has been determined that the leading place by the cardiovascular morbidity level belongs to arterial hyperte
1. Davidov M.I., Volkov S.M., Polockii B.E. Sovershenstvovanie hiryrgicheskogo lecheniya bolnih nemelkokletochnim rakom lyogkogo // Ros. onkol. jyrn. - 2001. – № 5. – S. 14 - 17
2. Merabishvili V.M., Sherbyk U.A. Onkologicheskaya slyjba v Sankt-Peterbyrge i raionah goroda v 2008 gody (zabolevaemost, smertnost, vijivaemost). Ejegodnik Popylyacionnogo rakovogo registra // SPb. - 2009. – 240 s. ISBN 978-5-91258-113-7
3. Chernehovskaya N.E. Sovremennie tehnologii v endoskopii. – M.: Rossiiskaya medicinskaya akademiya postdiplomnogo obrazovaniya, 2004. – 136 s.
4. Chissov V.I., Starinskii V.V., Petrova G.V. Zlokachestvennie novoobrazovaniya v Rossii v 2008 gody (zabolevaemost i smertnost) // M.: FGY «MNIOI im. P.A. Gercena Rosmedtehnologii», 2010.− 256 s.: il. ISBN 5-85502-024-H
5. Banerjee A.K., Rabbitts P.H., George J. Lung cancer. Fluorescence bronchoscopy: clinical dilemmas and research opportunities // Thorax. – 2003. - 58(3). – R. 266-271.
6. Fawzy Y.S., Zeng H. Determination of scattering volume fraction and particle size distribution in the superficial layer of a turbid medium by using diffuse reflectance spectroscopy // Appl. Opt. – 2006. - 1;45(16). – R. 3902-3912.
7. George P., Banerjee A.K., Read C.A. et al. Surveillance for the detection of early lung cancer in patients with bronchial dysplasia // Thorax. 2007. - Jan; 62 (1). – R. 43-50.
9. Häussinger K., Becker H., Stanzel F., Kreuzer A. et al. Autofluorescence bronchoscopy with white light bronchoscopy compared with white light bronchoscopy alone for the detection of precancerous lesions: a European randomised controlled multicentre trial // Thorax. – 2005. - Jun; 60 (6). P. 496-503.
10. Hirsch F.R., Prindiville S.A., Miller Y.E. et al. Fluorescence versus white-light bronchoscopy for detection of preneoplastic lesions: a randomized study // J. Natl. Cancer Inst. – 2001. – 93. – R. 1385–1391.
11. Kennedy T.C., Miller Y., Prindiville S. Screening for lung cancer revisited and the role of sputum cytology and fluorescence bronchoscopy in a high-risk group // Chest. - 2000 Apr; 117 (4 Suppl. 1). – R. 72S-79S.
12. Lam S., MacAulay C., leRiche J.C., Palcic B. Detection and localization of early lung cancer by fluorescence bronchoscopy // Cancer. – 2000. – Dec. 1;89 (11 Suppl). – R. 2468- 2473.