Specific complex of non-radiation risk factors for socially significant pathologies could affect the liquidators of Chernobyl nuclear power plant accident

Bibliography:
1. Ilyin LA. Chernobyl: myth and reality. 2nd ed. Moscow: ALARA Limited, 1996; 473 p.
2. Ilyin LA, Kryuchkov VP, Osanov DP, Pavlov DA. Exposure levels for persons involved in recovery operation following the Chernobyl accident in 1986-87 and dosimetric data verification. Radiation biology. Radioecology 1995; 35 (6): 803-828
3. United Nations. UNSCEAR 2000: Report to the General Assembly, with Scientific Annex. Annex J. Exposures and Effects of the Chernobyl Accident. New York, 2000. P. 451-566
4. UNSCEAR 2008: Report to the General Assembly, with Scientific Annex. Annex D. Health effects due to radiation from the Chernobyl accident. United Nations. New York, 2011. P. 47-219
5. BEIR VII Report 2006. Phase 2: Health Risks from Exposure to Low Levels of Ionizing Radiation. Committee to Assess Health Risks from Exposure to Low Levels of Ionizing Radiation, — National Research Council, http://www.nap.edu/ catalog/11340.html (18 November 2014)
6. Kryuchkov V, Chumak V, Maceika E, et al. RADRUE method reconstruction of external photon doses for Chernobyl liquidators in epidemiological studies. Health Phys 2009; 97 (4): 275-298
7. Kryuchkov VP, Kochetkov OA, Tsovianov AG, et al. Chernobyl accident: dose liquidators, alarm monitoring, retrospective evaluation. Moscow: Ed. by State Scientific Research Center n.a. A. I. Burnasyan Medical Biophysical Center of Federal Medical Biological Agency, 2011; 280 p.
8. Belyakov OV, Steinhausler F, Trott K-R. Chernobyl liquidators: The people and the doses: In Proc. of the 9th Intern. In: Congress of the International Radiation Protection Association, Hiroshima, Japan, 14-19 May 2000. P. 11-252. http://www.irpa.net/irpa10/cdrom/00666.pdf (18 November 2014)
9. Tukov AR, Prokhorova MN, Dzagoeva LG, Nikitina Nl. The incidence of circulatory system diseases of the Chernobyl accident liquidators. Health of the Russian Federation 1998; (4): 33-36
10. TukovAR. Diseasesofthe blood and blood-forming organs from the liquidators of the Chernobyl accident. Hematology and Transfusiology 2000; (5): 31-33
11. TukovAR, Dzagoeva LG. Comparative analysis of cancer incidence and mortality from liquidators which worked in the Nuclear Industry and Nuclear Power Plants of Russia. Medical Radiology and Radiation Safety 2002; 47 (4): 27-33
12. IgnatovAA, TukovAR, Korovkina ЕР, et al. The external dose ratio of the life span decrease in Chernobyl accident recovery workers: data on employees of the enterprises of Ministry of Atomic Power of Russia. Medical Radiology and Radiation Safety 2006; 51 (6): 11-15
13. Shafransky IL, Tukov AR, Kleeva NA. Cancer thyroid incidence and radiogenic risk in nuclear power workers participated in the recovery of Chernobyl NPP accident. Medical Radiology and Radiation Safety 2011; 56 (2): 30-37
14. BiryukovAP, IgnatovAA, TukovAR, etal. Life expectancy of workers of the enterprises of the nuclear industry which were taking part in liquidation of the Chernobyl accident. Medical-biological problems 2012; (8): 31-38
15. Cristofaro JDL, Vasko V, Savchenko V, et al. Ret/PTC1 and ret/РТСЗ in thyroid tumors from Chernobyl liquidators: comparison with sporadic tumors from Ukrainian and French patients. Endocrine-Related Cancer 2005; 12 (1): 173-183
16. World Health Organization. Health effects of the Chernobyl accident and special health care programmes: Report of the UN Chernobyl Forum Expert Group "Health." Geneva: WHO, 2006
17. Current state of Russian State Medical Radiation Monitoring Register: external dose of the accident at the Chernobyl nuclear power plant on areas of their permanent residence (without authors). Radiation and risk 2009; 28 (1): 10-61
18. Bouville A, Chumak W, Inskip PD, et al. The Chornobyl Accident: Estimation of Radiation Doses Received by the Baltic and Ukrainian Cleanup Workers. Radiat Res 2006; 166 (1): 158-167
19. Ivanov V, Tsyb A, Ivanov S, Pokrovsky V. Medical radiological consequences of the Chernobyl catastrophe in Russia: estimation of radiation risks. St. Petersburg: Nauka, 2004; 388 p. (English)
20. Ivanov V, Chekin SYu, Kashcheev VV, et al. Thyroid cancer incidence among Chernobyl emergency workers: follow-up period 1986-2003. Radiation biology. Radioecology 2007; 47 (5): 517-522
21. Romanenko A, Bebeshko V, Hatch М, et al. The Ukrainian-American study of leukemia and related disorders among Chornobyl cleanup workers from Ukraine: I: Study methods. Radiat Res 2008; 170 (6): 691-697
22. Chumak VV, Romanenko AYe, Voilleque PG, et al. The Ukrainian-American study of leukemia and related disorders among Chornobyl cleanup workers from Ukraine: II: Estimation of bone marrow doses. Radiat Res 2008; 170 (6): 698-710
23. Fletcher RH, Fletcher SW, Wagner EH. Clinical Epidemiology: the essential. 3rd ed. Baltimore: Wlliams & Wlkins, 1996. 352 p.
24. Vlasov VV Epidemiology: textbook for High Schools. Moscow: Publishing House 'GEOTAR-MED', 2004; 462 p.
25. United Nations. UNSCEAR 2006: Report to the General Assembly, with Scientific Annexes. Annex A: Epidemiological studies of radiation and cancer. United Nations, New York, 2008. P. 17-322
26. Eichhorn GL, ed. Inorganic biochemistry. Amsterdam; Oxford; New York: Elsevier, 1973; 1263 p. (Неорганическая биохимия. Под ред. Г. Эйхгорн. Т. 2. М.: Мир, 1978. 736 с.
27. Nordberg GF, Garvey JS, Chang ChC. Metallothionein in pasma and urine of cadmium workers. Environ Res 1982; 28 (1): 179-182
28. Koterov AN, Filippovich IV Radiobiology of metallothioneins. Radiation biology. Radioecology 1995; 35 (2): 162-178
29. Waldron НА. Did the Mad Hatter have mercury poisoning? Br Med J (Clin Res Ed) 1983; 287 (6409): 1961
30. Burkart W, Linder H. Hot particles in the environment: assessment of dose and health detriment. Soz Praventivmed 1987; 32 (6): 310-315
31. Osuch S, Dabrowska M, Jaracz P, et al. Isotopic composition of high-activity particles released in the Chernobyl accident. Health Phys 1989; 57 (5): 707-716
32. Papp Z, Bolyos A, Dezso Z, Daroczy S. Direct determination of 90Sr and 147Pm in Chernobyl hot particles collected in Kiev using beta absorption method. Health Phys 1997; 73 (6): 944-952
33. Kryuchkov VP, Kochetkov OA, Tsovianov AG. Radiation-dosimetric aspects of the accident at the Chernobyl Nuclear Power Plant. Ed. by Asmolov VG and Kochetkov OA. Moscow: IzdAT, 2011; 256 p.
34. Schrader SM, Kanitz МН. Occupational hazards to male reproduction. Occupational Medicine: State of the art reviews: reproductive hazards. Ed. by Gold E, Schenker M, and Lasley B. 1994; 405-414
35. Fisher-Fischbein J, Fischbein A, Melnick HD, Bardin CW. Correlation between biochemical indicators of lead exposure and semen quality in a lead-poisoned firearms instructor. JAMA 1987; 257 (6): 803-805
36. Lerda D. Study of sperm characteristics in persons occupational^ exposed to lead. Am J Ind Med 1992; 22 (4): 567-571
37. KristensenP, IrgensLM, DaltveitAK, Andersen A. Perinatal outcome among children of men exposed to lead and organic solvents in the printing industry. Am J Epidemiol 1993; 137 (2): 134-144
38. Lindbohm ML, Sallmen M, Anttila A,, et al. Paternal occupational lead exposure and spontaneous abortion. Scand J Work Environ Health 1991; 17 (2): 95-103
39. Rogstad SH, Keane B, Collier MH. Minisatellite DNA mutation rate in dandelions in-creases with leaf-tissue concentrations of Cr, Fe, Mn, and Ni. Environ Toxicol Chem 2003; 22 (9): 2093-2099
40. Lazutka JR, Lekevicius R, Dedonyte V, et al. Chromosomal aberrations and sister-chromatid exchanges in Lithuanian populations: effects of occupational and environmental exposures. Mutat Res 1999; 445 (2): 225-239
41. Zheltonozhsky V, Muck K, Bondarkov M. Classification of hot particles from the Chernobyl accident and nuclear weapons detonations by non-destructive methods. J Environ Radioact 2001; 57 (2): 151-166
42. Sevan'kaev AV. The selected results of cytogenetic studies related to estimation of consequences of the Chernobyl accident. Radiation biology. Radioecology 2000; 40 (5): 589-595
43. Belokonski I, BonchevTs, Bosevski V, etal. Environmental contamination follow major nuclear accident. Proc Int Simpos Vienna, 16-20 Oct. 1989. Vol. 1. Vienna, 1990; p. 168-170
44. Vorob'ev Al, Domracheva EV, Klevezal' GA, Cumulative radiation dosage and epidemiological research in the Chernobyl region. Therapeutic Archive 1994; 66 (7): 3-7
45. Domracheva EV, Kuznetsov SA, Shklovskii-Kordi NE, Vorob'ev Al. Cells with numerous chromosomal aberrations detected in inhabitants of the Chernobyl region. Hematology and Transfusiology 1991; (11): 36-37
46. Haas JF, Schottenfeld D. Risks to the offspring from parental occupational exposures. J Occup Med 1979; 21 (9): 607-613
47. United Nations. UNSCEAR 2000: Report to the General Assembly, with Scientific Annex. Annex H: Combined effects of radiation and other agents: New York, 2000. P. 177-295
48. El-Zein RA, Abdel-Rahman SZ, Morris DL, Legator MS. Exposure to ethylene glycol monomethyl ether: clinical and cytogenetic findings. Arch Environ Health 2002; 57 (4): 371-376
49. Molholt B, Finette BA. Distinguishing potential sources of genotoxic exposure via HPRT mutations. Radiation biology. Radioecology 2000; 40 (5): 529-534. (English)
50. Slozina NM, Neronova EG. Genetic consequences of emergency situations. Medico-biological and socio-psychological problems of safety in emergency situations 2007; (1): 32-40
51. Cohen FL. Paternal contributions to birth defects. Nurs Clin North Am 1986; 21 (1): 49-64. 52. National Toxicology Program. Final report on carcinogens background document for formaldehyde. Rep Carcinog Backgr Doc 2010; 10(5981). 1-512
53. De Grosbois S, Mergler D. Mental health and the exposure to organic solvents in the workplace. Sante Ment Que 1985; 10 (2): 99-113
54. Nordling Nilson L, Barregard L, Sallsten G, Hagberg S. Self-reported symptoms and their effects on cognitive functioning in workers with past exposure to solvent-based glues: an 18-year follow-up. Int Arch Occup Environ Health 2007; 81 (1): 69-79
55. Goswami E, Craven V, Dahlstrom DL, et al. Domestic asbestos exposure: a review of epidemiologic and exposure data. Int J Environ Res Public Health 2013; 10 (11): 5629-5670
56. Koterov AN, Biryukov AP The offspring of liquidators of Chernobyl Atomic Power Station accident. I: The estimation of the basic opportunity to register of radiation effect. Medical Radiology and Radiation Safety 2012; 57 (1): 58-79
57. Koterov AN, Biryukov АР. The offspring of liquidators of Chernobyl Atomic Power Station accident. 2: The frequency of anomalies and pathologies and its connection to non-radiation factors. Medical Radiology and Radiation Safety 2012; 57 (2): 51-77
58. Inskip Н, Snee М, Styles L. The mortality of Royal Naval submariners 1960-1989. Occup Environ Med 1997; 54 (3): 209-215
59. Inskip H. The mortality of Royal Naval submariners 1960-1989. J R Nav Med Serv 1997; 83 (1): 19-25
60. Wong FL, Yamada M, Sasaki H, et al. Noncancer diseases incidence in atomic bomb survivors 1958-1988. Radiat Res 1993; 135 (3): 418-430
61. Ivanov VK, Maksioutov MA, Chekin SYu, et al. Radio-epidemiological analysis of incidence of non-cancer diseases among Chernobyl liquidators. Radiation and Risk 2001; (12): 82-98
62. Alexanin SS, Rybnikov VY. The health status of the participants of the Chernobyl Nuclear Power Plant accident, in: 25 years after the Chernobyl disaster: Addressing the consequences of the Union State: a collection of plenary sessions of the International scientific and practical conference. Ed. by VSAverin. Gomel: SOG, 2011; p. 23-28
63. Yarmonenko SP The medical consequences of the Chernobyl accident: analytical review of expert materials for 20 years after the accident. Medical Radiology and Radiation Safety: Special application 2006. 18 p.
64. Rumyantseva GM, Stepanov AL. Post-traumatic stress disorder in different types of stress (clinical features and treatment). Neurosci Behav Physiol 2008; 38 (1): 55-61
65. Rumyantseva GM, Chinkina OV, Bezhina LN. Radiological incidents and mental health. Moscow: FGI 'GNTSSSP', 2009; 288 p.
66. Rumyantseva GM, Chinkina OV, Shishkov SN. Expert assessment of mental disorders in persons exposed to radiation at higher level: a guide for doctors and psychologists. Moscow: The Serbsky State Scientific Center for Social and Forensic Psychiatry Health Ministry of Russia, 2011; 260 p.
67. Metlyaeva NA. Psychophysiological status of acute radiation sickness patients and clean-up workers of Chernobyl accident. Medical Radiology and Radiation Safety 2007; 52 (3): 10-21
68. Metlyaeva NA. Psychophysiological adaptation efficiency assessment for acute radiation sickness survivors and clean-up workers of Chernobyl accident. Medical Radiology and Radiation Safety 2009; 54 (5): 36-41
69. Isaeva NA, Torubarov FS. Disturbing-depressive frustration of persons in consequences of failure participating in liquidation on Chernobyl NPP in the remote period: treatment by a method of a biological feedback. Medical Radiology and Radiation Safety 2009; 54 (4): 42-46
70. Matveeva NP, Kaplan MA. Psychological status of the liquidators in the remote period after the completion of the work in the Chernobyl zone. Radiation and Risk 1999; (11): 94-100
71. Goldman М. The Russian Radiation Legacy: its integrated impact and lessons. Environ Health Perspect 1997; 105. Suppl. 6: 1385-1391
72. Viel JF, Curbakova E, Dzerve B, et al. Risk factors for long-term mental and psychosomatic distress in Latvian Chernobyl liquidators. Environ Health Perspect 1997; 105. Suppl 6: 1539-1544
73. Pastel RH. Radiophobia: long-term psychological consequences of Chernobyl. Mil Med 2002; 167 (2 Suppl): 134-136
74. Rahu K, Rahu M, Tekkel M, Bromet E. Suicide risk among Chernobyl cleanup workers in estonia still increased: an updated cohort study. Ann Epidemiol 2006; 16 (12): 917-919
75. Barnett L. Psychosocial effects of the Chernobyl nuclear disaster. Med Confl Surviv 2007; 23 (1): 46-57
76. Bromet EJ, Havenaar JM. Psychological and perceived health effects of the Chernobyl disaster: a 20-year review. Health Phys 2007; 93 (5): 516-521
77. Loganovsky K, Havenaar JM, Tintle NL, et al. The mental health of clean-up workers 18 years after the Chernobyl accident. Psychol. Med. 2007; 30 (4): 1-8
78. Sumner D. Health effects resulting from the Chernobyl accident. Med Confl Surviv 2007; 23 (1): 31-45
79. Lieberman AN. Radiation and reproductive health. St. Petersburg, 2003; 233 p.
80. Collodel G, Moretti Е, Fontani V, et al. Effect of emotional stress on sperm quality. Indian J Med Res 2008; 128 (3): 254-261
81. Fischbein A, Zabludovsky N, Eltes F, et al. Ultramorphological sperm characteristics in the risk assessment of health effects after radiation exposure among salvage workers in Chernobyl. Environ Health Perspect 1997; 105. Suppl 6:1445-1449
82. Tronko MD, Howe GR, Bogdanova Tl, et al. A cohort study of thyroid cancer and other thyroid diseases after the Chornobyl accident: thyroid cancer in Ukraine detected during first screening. J Natl. Cancer Inst 2006; 98 (13): 897-903
83. Ivanov VK, Chekin SY, Kashcheev VV, et al. Risk of thyroid cancer among Chernobyl emergency workers of Russia. Radiat Environ Biophys 2008; 47 (4): 463-467
84. Ivanov VK, Gorsky Al, Maksioutov MA. Radiation risks of thyroid cancer caused by exposure of liquidators by radioisotopes of iodine. Radiation and Risk 2009; 18 (1): 62-75
85. KesminieneA, EvrardAS, Ivanov VK, etal. Risk of thyroid cancer among Chernobyl liquidators. Radiat Res 2012; 178 (5): 425-436
86. Zablotska LB, Bogdanova Tl, Ron E, et al. A cohort study of thyroid cancer and other thyroid diseases after the Chornobyl accident: dose-response analysis of thyroid follicular adenomas detected during first screening in Ukraine (1998-2000). Am J Epidemiol 2008; 67 (3): 305-312
87. Resolution of Russian Scientific Commission on Radiological Protection on the report 'Evaluation of radiation risks of cancer incidence and mortality among liquidators of the Chernobyl accident according to the National Radiation and Epidemiological Registry'. Radiation and Risk 2010; 19 (4): 7
88. Koterov AN. From very low to very large doses of radiation: new data on ranges definition and its experimental and epidemiological basing. Medical Radiology and Radiation Safety 2013; 58 (2): 5-21
89. Biriukov АР, Zelenskaja NS, Ukraintsev VF. The health status of nuclear industry workers who participated in the liquidation of the Chernobyl accident. In: Proc. VII Int. Conf. NPP safety and training.'Obninsk, 8-11 October 2001
90. Onitilo АА, Nietert PJ, Egede LE. Effect of depression on all-cause mortality in adults with cancer and differential effects by cancer site. Gen Hosp Psychiatry 2006; 28 (5): 396-402
91. Amikishieva AV, llnitskaya SI, Nikolin VP, et al. Depressive-like psychoemotional state versus acute stresses enhances Lewis lung carcinoma metastasis in C57BL/6J mice. Exp Oncol 2011; 33 (4): 222-225
92. United Nations. UNSCEAR 2006: Report to the General Assembly, with Scientific Annexes. Annex B: Epidemiological evaluation of cardiovascular disease and other non-cancer diseases following radiation exposure. New York, 2006. P. 325-383
93. Mayorov DN. Brain angiotensin AT1 receptors as specific regulators of cardiovascular reactivity to acute psychoemotional stress. Clin Exp Pharmacol Physiol 2011; 38 (2): 126-135
94. Zimmermann YS, Zimmermann IY, Depressive syndrome in gastroenterology: diagnosis and treatment. Clinical Medicine 2007; 85 (5): 16-23
95. Peters ЕМ, Arck PC, Paus R. Hair growth inhibition by psychoemotional stress: a mouse model for neural mechanisms in hair growth control. Exp Dermatol 2006; 15 (1): 1-13
96. Arushanian EB, Beier EV Interaction of psychoemotional state and activity of the immune system. Successes in Physiological Sciences. 2004; (4): 49-64
97. Oradovskaya IV Dynamics of immune status indices of liquidators in the remote period after the accident at the Chernobyl NPP. Radiation biology. Radioecology 2006; 46 (3): 348-373
98. Korystov YN. Emotions, stress, smoking, alcohol consumption and cancer: correlation and causality. Journal of Higher Nervous Activity in the name of IP Pavlov 1997; (4): 627-657
99. Antonov VP The radiation situation and its social and psychological aspects. Kiev: Knowledge, 1987; 48 p.
100. Rybnlkov VYu, Oleshko VA. The health condition and medical psychological correction of psychosomatic disorders in the veterans of high risk units. Medico-biological and socio- psychological problems of safety in emergency situations 2007; (2): 13-19
101. Sannikov MV, Andrejev АА. Health characteristics of rescuers and specialists of the State fire-prevention service of the Ministry of emergency situations. Medico-biological and socio-psychological problems of safety in emergency situations 2007; (1): 19-26
102. Teplyakova OV, Chernov VI, Lishmanov YuB. Studying of life quality for Chernobyl accident evacuators in delayed period and Joint Syndrome influence. Medical Radiology and Radiation Safety 2007; 52 (5): 19-25
103. Alhutova NA, Drygina LB, Kalinina NM, et al. The biological age and ageing speed up analysis in Chernobyl accident recovery workers. Medical Radiology and Radiation Safety 2007; 52 (5): 26-35
104. Oganesian NM, Davidian NR, Gevorkian EG, et al. Delayed medical consequences of the Chernobyl accident in Armenia. Assessment of life quality and accelerated biological aging of accident liquidators. Radiation Biology. Radioecology 2011; 51 (1): 91-100
105. Gus'kova АК, Galstian IA, Gusev IA. Chernobyl nuclear power plant accident (1986-2011): implications for health, meditation doctor. Ed. by AK Gus'kova. Moscow: State Scientific Research Center n.a. A. I. Burnasyan Medical Biophysical Center of Federal Medical Biological Agency, 2011; 254 p.
106. Stephan V Chernobyl: poverty and stress pose 'bigger threat' than radiation. Nature 2005; 437 (7056): 181
107. Ivanov VK, Maksioutov MA, Chekin SYu, et al. The radiation risks of cerebrovascular diseases among the liquidators. Radiation Biology. Radioecology 2005; 45 (3): 261-270
108. Phillips BJ, Jenkinson P. Isethanol genotoxic? A review of the published data. Mutagenesis2001; 16(2): 91-101
109. Robbins WA, Vine MF, Truong KY, Everson RB. Use of fluorescence in situ hybridization (FISH) to assess effects of smoking, caffeine, and alcohol on aneuploidy load in sperm of healthy men. Environ Mol Mutagen 1997; 30 (2): 175-183
110. Pelevina II, Aleshchenko AV, Antoshchina MM, etal.The reaction of cell population to low level of irradiation. Radiation Biology. Radioecology 2003; 43 (2): 161-166
111. Koterov AN, Nikol'skii AV. Adaptation to irradiation in vivo. Radiation Biology Radioecology 1999; 39 (6): 648-662
112. Steinhausen НС. Children of alcoholic parents: a review. Eur Child Adolesc Psychiatry 1995; 4 (3): 143-152
113. Anokhina IP, Ovchinnikova LN, Shamakina lYu, et al. Some neurobiological mechanisms of the effect of ethanol on offspring of chronically alcohol treated rats. Ann Med 1990; 22 (5): 353-356
114. Meek LR, Myren K, Sturm J, Burau D. Acute paternal alcohol use affects offspring development and adult behavior. Physiology & Behavior 2007; 91 (1): 154-160
115. Elkins IJ, McGue M, Malone S, lacono WG. The effect of parental alcohol and drug disorders on adolescent personality. Am J Psychiatry 2004; 161 (4): 670-676
116. Velleman R, Orford J. The adult adjustment of offspring of parents with drinking problems. Br J Psychiatry 1993; 162: 503-516
117. Grekin ER, Brennan PA, Hammen О Parental alcohol use disorders and child delinquency: the mediating effects of executive functioning and chronic family stress. J Stud Alcohol 2005; 66(1): 14-22
118. Postrelko VM. Alcohol dependence syndrome in liquidators of the Chernobyl accident: clinical epidemiology and treatment. In: Mater. VI Congress of Radiation Research. T.I. Moscow, 25-28 October 2010. Moscow: People's Friendship University, 2010; p. 121
119. The medical consequences of the Chernobyl accident. The report of the Chernobyl Forum experts. Group Health'. Resumes. Trans, from English. O.K. Alexeeva, ed. by PV Izhevsky. SRC Institute of Biophysics, FMBA at Ministry of Health of the Russian Federation. Department of Scientific and Technical Information. Translation number 268 (Part 2/3), 2005; 13 p.
120. Balansky RM, Blagoeva РМ. Tobacco smoke-induced clastogenicity in mouse fetuses and in newborn mice. Mutat Res 1989; 223(1): 1-6
121. Zenzes MT, Puy LA, Bielecki R, Reed ТЕ. Detection of benzo [a] pyrene diol epoxide-DNA adducts in embryos from smoking couples: evidence for transmission by spermatozoa. Mol Hum Reprod 1999; 5 (2): 125-131
122. Anderson D. Male-mediated developmental toxicity. Toxicol Appl Pharmacol 2005; 207 (2 Suppl): 506-513
123. Schmidt F. Smoking damages male fertility. Andrologia 1986; 18 (5): 445-454
124. Rubes J, Lowe X, Moore D. 2nd, et al. Smoking cigarettes is associated with increased sperm disomy in teenage men. Fertil Steril 1998; 70 (4): 715-723
125. Yunis JJ, Soreng AL. Constitutive fragile sites and cancer. Science. 1984; 226 (4679): 1199-1204
126. Kuwano A, Kajii T. Synergistic effect of aphidicolin and ethanol on the induction of common fragile sites. Hum Genet 1987; 75(1): 75-78
127. Coquelle A, Toledo F, Stern S, et al. A new role for hypoxia in tumor progression: induction of fragile site triggering genomic rearrangements and formation of complex DMs and HSRs. Mol Cell 1998; 2 (2): 259-265
128. Fu Q, Cheng J, Han Zh-B. DNA damage and apoptosis of human airway epithelial cell lines caused by cigarette smoke extract. Ai Zheng 2006; 25 (10): 1191 -1197
129. Banerjee Sh, Maity P, Mukherjee S. Black tea prevents cigarette smoke-induced apoptosis and lung damage. J Inflamm (Lond)2007;4(1):3
130. Van derToorn M, Slebos D-J, De Bruin H, etal. Cigarette smoke induced blockade of the mitochondrial respiratory chain switches lung epithelial cell apoptosis into necrosis. Am J Physiol Lung Cell Mol Physiol 2007; 292 (5): L1211-L1218
131. Sirota NP, Kuznetsova EA, Guliaeva NA, et al. The individual differences in responses of cancer patient blood cells on radiation treatment during the chemotherapy. Radiation Biology. Radioecology 2005; 45 (6): 645-652
132. Shantyr II. Tobacco consumption prevalence and health indicators of nicotine-addicted individuals. Medico-biological and socio-psychological problems of safety in emergency situations. 2007; (1): 49-51
134. Morris LG, Sikora AG, Tosteson TD, Davies L. The increasing incidence of thyroid cancer: the influence of access to care. Thyroid 2013; 23 (7): 885-891
135. Verkooijen HM, Fioretta G, Pache JC, et al. Diagnostic changes as a reason for the increase in papillary thyroid cancer incidence in Geneva, Switzerland. Cancer Causes Control 2003; 14(1): 13-17
136. Kaiser JC, Jacob P, Blettner M, Vavilov S. Screening effects in risk studies of thyroid cancer after the Chernobyl accident. Radiat Environ Biophys 2009; 48 (2): 169-179
137. Rozhko AV, Masyakin VB, Nadyrov EA, Okeanov AE. Screening effect role in estimation of thyroid pathology cohort study. Medical Radiology and Radiation Safety 2010; 55 (1): 19-23
138. ICRP Publication 118. ICRP Statement on tissue reactions and early and late effects of radiation in normal tissues and organs — threshold doses for tissue reactions in a radiation protection context. Annals of the ICRP. Ed. by C.H. Clement. Amsterdam; New York: Elsevier, 2012; 325 p.
139. UNSCEAR 2013: Report to the General Assembly, with Scientific Annex. Annex A: Levels and effects of radiation exposure due to the nuclear accident after the 2011 great east-Japan earthquake and tsunami. United Nations, New York, 2013; 311 p.