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Yablokov: Nonmalignant Diseases after Chernobyl 145Catastrophe: Ecological and Social Lessons. June 5,2006, Moscow (Materials, Moscow): pp. 81–86 (inRussian).Kondratenko, G. G. (1998). Ulcerative gastro-duodenalhemorrhage incidence after the Chernobyl accident.Herald Belarus. Nat. Acad. Sci. (Biol.) 3: 111–114 (inRussian).Kondrusev, A. I. (1989). Sanitary and health measurestaken to deal with the consequences of the Chernobylaccident. In: Medical Aspects of the Chernobyl Accident.IAEA Technical Document 516 (IAEA,Vienna): pp.39–63.Konoplya, E. E. (1998). Status of people with thyroidpathologies suffering from Chernobyl catastrophe.International Scientific and Practical Conference.Ecology and Youth, Gomel. March 17–19, 1998 (Materials,Gomel’): pp. 31–32 (in Russian).Korblein, A. (2000). Low dose radiation effects: Germandata. In: Second Congress of the Vavilov GeneticSelection Society. February 1–5, 2000, St. Petersburg(Abstracts, St. Petersburg), Vol. 2: pp. 337–338 (inRussian).Korblein, A. (2002). Infant mortality following Chernobyl.In: Third International Symposium on Mechanismsof Ultra-Low Dose Action. December 3–6,2002, Moscow (Abstracts, Moscow): pp. 157–160 (inRussian).Körblein, A. (2003). Säuglingssterblichkeit nach Tschernobyl.Berichte Otto Hug Strahleninstitut 24: 6–34 (inGerman).Körblein, A. (2004). Fehlbildungen in Bayern nachTschernobyl. Strahlentelex 416–417: 4–6 (inGerman).Korobko, V. I., Korytko, S. S., Bletko, T. V. & Korbut, I.I. (1996). Interferon system function abnormalitiesin liquidators: Correlation of interferon status andimmune and hormonal statuses indices. Immunology1: 56–58 (in Russian).Korol, N. A., Treskunova, T. V. & Duchota, T. A. (1999).Children’s health status affected by Chernobyl accident.In: Medical Consequences of the Chernobyl Accident,Vol. 1 (“MEDECOL,” Kiev): pp. 120–134 (inRussian).Kovalenko, A. N. & Loganovsky, K. N. (2001). WhetherChronic Fatigue Syndrome and Metabolic SyndromeX in Chernobyl accident survivors are membranepathologies? Ukr. Med. J. 6 (26): 70–81 (inRussian).Kovaleva, L. I., Lyubchenko, P. N. & Shyrokova, E.B. (2004). Myocardial reactive ability in liquidatorsas indicated by polycardiographic data many yearslater. Med. Radiol. Radiat. Safety 49 (2): 17–21 (inRussian).Krasnov, V. N., Yurkin, M. M., Vojtsekh, V. F., Skavysh, V.A., Gorobets, L. N., et al. (1993). Mental disorders inliquidators. Report I: Structure and current pathogenesis.Soc. Clinic. Psychiat. 3 (1): 5–10 (in Russian)Kruslin, B., Jukic, S., Kos, M., Simic, G. & Cviko, A.(1998). Congenital anomalies of the central nervoussystem at autopsy in Croatia in the period before andafter Chernobyl. Acta Med. Croat. 52: 103–107.Kuchinskaya, E. A. (2001). Immune system characteristicsin practically healthy children and adolescentswith autoimmune thyroiditis living in variousradio-ecological Belarussian areas. Ph.D. Thesis Biology(Belarus Medical University, Minsk): 21 pp. (inRussian).Kudryashov, Yu. B. (2001). Radiobiology: Yesterday, todayand tomorrow. In: Chernobyl: Duty and Courage1 (Institute of Strategic Stability, Ministry for NuclearAffairs, Moscow) (//www.iss.niiit.ru/book-4)(in Russian).Kulakov, V. I., Sokur, A. L., Volobuev, A. L., Tsybul’skaya,I. S., Malisheva, V. A., et al. (1993). Female reproductivefunctions in areas affected by radiation after theChernobyl power station accident. Env. Health Persp.101: 117–123 (in Russian).Kulakov, V. I., Sokur, T. N., Tsybul’skaya, I. S.,Dolzhenko, I. S., Volobuyev, A. I., et al. (1997).Chernobyl and Health of the Future Generations.In: Chernobyl: Duty and Courage 1 (Institute of StrategicStability, Moscow) (//www.iss.niiit.ru/book-4) (inRussian).Kul’kova, L. V., Ispenkov, E. A., Gutkovsky, I. A., Voinov,I. N., Ulanovskaya, E.V.,et al. (1996). Epidemiologicalmonitoring of children’s health in the radionuclidecontaminated territories of Gomel province.Med. Radiol. Radioact. Safety 2: 12–15 (in Russian).Kureneva, E. Yu. & Shidlovskaya, T. A. (2005). Comparativeanalysis of tonal audiometry in patientswith conventional and abnormal chronic dystrophiaand auditory insufficiency associated with radioactivegenesis. Russ. Otorinolaringolog. 5: 61–65 (inRussian).Kurilo, L. F., Lyubashevskaya, I. A. & Dubinskaya, V. P.(1993). Cellular composition of immature sperm cellsin ejaculation. Urol. Nefrol. 2: 45–47 (in Russian).Kut’ko, I. I., Rachkauskas, G. S., Safonova, E. F., Pusovaya,O. A., Mutychko, M. V. & Romashko, A.M. (1996). Clinical and immunological characteristicsof liquidators with associated neuropsychologicalpathology. In: Kut’ko, I. I. & Petruk, P. T., History ofSaburov’ Dacha: Successes of Psychiatry, Neurology, Neurosurgeryand Psychiatry 3 (Ukrainian Institute for ClinicalExperience in Neurology Psychiatry and KharkovCity Hospital N0 15, Kharkov): pp. 255–257 (inRussian).Kut’kov, V. A. (1998). Atmospheric radionuclide contaminationafter the Chernobyl accident and lung irradiation.In: Chuchalin, A. G., Chernyaev, A. L. &
146Vuazen, K. (Eds.), Pulmonary System Pathology in Liquidators(Grant, Moscow): pp. 10–43 (in Russian).Kut’kov, V. A., Murav’ev, Yu. B., Aref’eva, Z. S. & Kamaritskaya,O. I. (1993). Hot particles: View sevenyears after the Chernobyl accident. Pulmonology 4:10–19 (in Russian).Kuz’myna, N. S. & Suskov, I. I. (2002). Expression ofgenomic instability in children’s lymphocytes livingunder prolonged impact of radioactive factors. Rad.Biol. Radioecol. 42 (6): 735–739 (in Russian).Kuznetsova, S. M., Krasylenko, E. P. & Kuznetsov, V.V. (2004). Brain circulatory diseases and cerebralcirculation in liquidators: Age characteristics. Clin.Gerontol. 10 (8): 18–28 (in Russian).Kyra, E. F., Tsvelev, Yu. V., Greben’kov, S. V., Gubin, V.A. & Chernichenko, I. I. (2003). Female reproductivehealth in the radioactive contaminated territories.Military Med. J. 324 (4): 13–16 (in Russian).Kyril’chik, E. Yu. (2000). Characteristics of immune statusand immune rehabilitation of children living inradioactive contaminated territories: Clinical laboratorystudies 1996–1999. M.D. Thesis (Minsk MedicalInstitute, Minsk): 21 pp. (in Russian).Kyseleva, E. P. (2000). Autoimmune abnormalities in liquidators11 years after the Chernobyl accident. Rad.Biol. Radiolog. 1: 32–36 (in Russian).Kyseleva, E. P. & Mozzherova, M. A. (2003). Dermatologicmorbidity among children from the contaminatedareas of Bryansk Province after the Chernobylaccident. Bryansk Med. Herald 6(11): 45–48.Lavdovskaya, M. V., Lysenko, A. Ya., Basova, E. N., Lozovaya,G. A., Baleva, L. S. & Rybalkyna, T. N. (1996).The “host-opportunistic protozoa” system: Effect ofionizing radiation on incidence of cryptosporidiosisand pneumocystosis. Parasitology 2: 153–157 (inRussian).Lazjuk, G. I., Bedelbaeva, K. A. & Fomina, Zh. N. (1990).Cytogenetic effects of additional low doses of ionizingradiation. Belar. Publ. Health 6: 38–41 (in Russian).Lazjuk, G. I., Kirillova, I. A. & Nykolaev, D. L. (1994).Hereditary pathology in Belarus and the Chernobylaccident. In: Chernobyl Accident: Medical Aspects(Collected Papers, Minsk): pp. 167–183 (inRussian).Lazjuk, G. I., Nykolaev, D. L. & Khmel’, R. D. (1996a).Absolute number and frequency of congenital malformations,strict accounting (CM SA) in some Belarusregions. Biomed. Aspects Chernob. Accident (Minsk)1: 15–17 (in Russian).Lazjuk, G., Nykolaev, D. & Novykova, I. (1996b). Congenitaland hereditary pathology in Belarus in viewof the Chernobyl catastrophe. Medicine 3 (12): 7–8.Lazjuk, G. I., Nykolaev, D. L. & Novykova, I. V. (1997).Changes in registered congenital anomalies in theRepublic of Belarus after the Chernobyl accident.Stem Cells 15: (Suppl. 2): 255–260.Lazjuk, G. I., Nykolaev, D. L., Novykova, I. V., Poplytyko,A. D. & Khmel’, R. D. (1999a). Belarussian populationradiation exposure after Chernobyl accidentand congenital malformation. Int. J. Rad. Med. 1:63–70 (in Russian).Lazjuk, G., Satow, Y., Nykolaev, D. & Novykova, I.(1999b). Genetic consequences of the Chernobyl accidentfor Belarus Republic. In: Imanaka, T. (Ed.),Recent Research Activities on the Chernobyl NPP Accidentin Belarus, Ukraine and Russia, KURRI-KR-7 (KyotoUniversity, Kyoto): 174–177.Lazjuk, G. I., Zatsepin, I. O., Verje, P., Ganier, B., Robert,E., et al. (2002). Down Syndrome and ionizing radiation:Direct-effect or by-chance connections. Rad.Biol. Radioecol. 42 (6): 678–683 (in Russian).Lenskaya, R. V., Pyvovarova, A. I., Luk’yanova, A. G.,Bykova, I. A., Zakharova, G. A., et al. (1995). Resultsof hematological and cytochemical screeningof blood from 906 children from Bryansk provinceterritories with different levels of cesium-137 andstrontium-90 soil contamination. Hematol. Transfusiol.40 (6): 30–34 (in Russian).Lenskaya, R. V., Zubrikhyna, G. N., Tarasova, I. S.,Buyankin, V. M. & Kaznacheev, K. S. (1999). Clinicaland immunological characteristics of childrenpermanently living in radionuclide-contaminatedterritories as a function of the dose of internal irradiation.Haematol. Transfusiol. 44 (2): 34–37 (in Russian).Leonova, T. A. (2001). Functional state of reproductivesystem among girls of pubertal age with autoimmunethyroiditis. Third International Conference. MedicalConsequences of Chernobyl Catastrophe: Outcomes of 15-YearStudies. June 4–8, Kiev, Ukraine (Abstracts, Kiev): pp.224–225 (in Russian).Leonova, T. A. & Astakhova, L. N. (1998). Autoimmunethyroiditis in pubertal girls. Public Health 5: 30–33 (inRussian).Lipchak, O. V., Elagin, V. V., Kartashova, S. S. & Timchenko,O. I. (2003). Risk of reproductive disordersamong population on radioactive contaminated territoriesof Kiev province. Health Problems 3: 36–39 (inUkrainian).Loganovsky, K. N. (1999). Clinical epidemiological aspectsand psychiatric consequences of the Chernobylcatastrophe. Soc. Clinic. Psychiat. 9 (1): 5–17 (inRussian).Loganovsky, K. N. (2000). Vegetative vascular dystoniaand bone pain syndrome or Chronic Fatigue Syndromeas a characteristic after-effect of a radioecologicaldisaster: The Chernobyl accident experience.J. Chron. Fatig. Syndr. 7 (3): 3–16.Loganovsky, K. N. (2002). Mental disorders followingexposure to ionizing radiation as a result of
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This monograph is a reprint of
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ChernobylConsequences of the Catast
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viChapter III. Consequences of the
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viiiFor a long time I have thought
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CHERNOBYLPrefaceThe principal idea
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xii• Chapter IV: Radiation Protec
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CHERNOBYLAcknowledgmentsThe present
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xviPintchouk, L.B., Institute of Ex
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2The basic conclusion of the report
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CHERNOBYLChapter I. Chernobyl Conta
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6tled outside of Belarus, Ukraine,
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8TABLE 1.1. Estimations of a Geogra
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10Figure 1.6. Some of the main area
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12Figure 1.7. The path of one Chern
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14Figure 1.10. Reconstruction of co
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16Figure 1.12. Transuranic radionuc
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18TABLE 1.3. Radioactive Contaminat
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20Figure 1.15. Spotty concentration
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22Figure 1.16. Maps of the Chernoby
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24the teeth of 6,000 children and f
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26TABLE 1.8. Estimation of the Popu
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28observations of fallout from the
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30Contamination: Chernobyl’s lega
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CHERNOBYL2. Chernobyl’s Public He
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34persons who were involved in liqu
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36the incomplete official data for
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38periodic journals and magazines a
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40Chernobyl Forum (2006). Health Ef
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CHERNOBYL3. General Morbidity, Impa
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44TABLE 3.2. Frequency of Complaint
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46Figure 3.2. Number (percentage) o
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48TABLE 3.7. Percent of “Practica
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50TABLE 3.12. Disability in Liquida
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52Gutkovsky, I. A., Kul’kova, L.
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54prenatally irradiated children. B
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56encephalopathy in those 40 years
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CHERNOBYL5. Nonmalignant Diseases a
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602. Children of liquidators living
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625.1.2.1. Belarus1. Cardiovascular
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64blood pressure was characteristic
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66TABLE 5.4. Incidence of (%, M ±
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687. For the majority surveyed in t
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70TABLE 5.12. Chromosomal Mutations
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72TABLE 5.16. Incidence of Down Syn
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74mortality; (c) an increase in de
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76Organization (WHO) (Chernobyl For
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78Adequate and timely thyroid funct
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805.3.1.2. Ukraine1. The noticeable
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82TABLE 5.24. General Endocrine Mor
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84of cases of autoimmune thyroiditi
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86between 1992 and 2001 (Moskalenko
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88protein X concentration in urine,
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90the 30-km Chernobyl zone. In 1986
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9211. In the 7 to 9 years after the
Page 111 and 112: 94Figure 5.7. Chronic bronchitis an
Page 113 and 114: 96TABLE 5.33. Respiratory Morbidity
Page 115 and 116: 985.6.2. Ukraine1. Urogenital disea
Page 117 and 118: 100TABLE 5.36. Urogenital Morbidity
Page 119 and 120: 102from Chernobyl fallout changed o
Page 121 and 122: 104TABLE 5.43. Primary Osteomuscula
Page 123 and 124: 10610. From 1991 to 2000 there was
Page 125 and 126: 108indicated an almost twofold incr
Page 127 and 128: 110TABLE 5.49. Dynamics of Nervous
Page 129 and 130: 1123. SWEDEN. A comprehensive analy
Page 131 and 132: 1143. In 1991 a group of 512 childr
Page 133 and 134: 116Only after 2000 did medical auth
Page 135 and 136: 11819. In 7 to 8 years after the ca
Page 137 and 138: 120TABLE 5.58. Digestive System Mor
Page 139 and 140: 122TABLE 5.62. Overall Skin Disease
Page 141 and 142: 1243. The incidence of kidney infec
Page 143 and 144: 126TABLE 5.68. Incidence of Congeni
Page 145 and 146: 128TABLE 5.73. Comparison of the In
Page 147 and 148: 130TABLE 5.74. Congenital Malformat
Page 149 and 150: 132Figure 5.15. Typical examples of
Page 151 and 152: 134TABLE 5.79. Incidence (per 100,0
Page 153 and 154: 136Arynchyna, N. T. & Mil’kmanovi
Page 155 and 156: 138Brogger, A., Reitan, J. B., Stra
Page 157 and 158: 140Drygyna, L. B. (2002). Clinical
Page 159 and 160: 142Goncharova, R. I. (2000). Remote
Page 161: 144September 27-29, 1999, Minsk (Be
Page 165 and 166: 148June 4-8, 2001, Kiev, Ukraine (A
Page 167 and 168: 150Noshchenko, A. G. & Loganovsky,
Page 169 and 170: 152Ukr. Herald Soc. Hygien. Publ. H
Page 171 and 172: 154Cytogenetic observations of chil
Page 173 and 174: 156dysfunction in persons sick from
Page 175 and 176: 158Tytov, L. P. (2002). Early and r
Page 177 and 178: 160Zaitsev, V. A., Petrenko, S. V.
Page 179 and 180: 162that all data from former republ
Page 181 and 182: 164TABLE 6.4. Childhood Cancer Morb
Page 183 and 184: 166Figure 6.5. General thyroid canc
Page 185 and 186: 168Figure 6.7. Thyroid cancer morbi
Page 187 and 188: 170Figure 6.9. Thyroid cancer morbi
Page 189 and 190: 172Figure 6.12. Total I-131 contami
Page 191 and 192: 174Figure 6.16. Papillary thyroid c
Page 193 and 194: 176well as being a result of the ad
Page 195 and 196: 178TABLE 6.11. Leukemia Morbidity (
Page 197 and 198: 180TABLE 6.14. Leukemia Morbidity (
Page 199 and 200: 182Figure 6.20. Breast cancer morbi
Page 201 and 202: 184TABLE 6.18. Increase in Morbidit
Page 203 and 204: 186Busby, C. (1995). The Wings of D
Page 205 and 206: 188Ivanov, V. K. & Tsyb, A. F. (200
Page 207 and 208: 190ujf-grenoble.fr/SANTE/alpesmed/e
Page 209 and 210: CHERNOBYL7. Mortality after the Che
Page 211 and 212: 194Figure 7.3. Stillbirth rate (per
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196Figure 7.7. Trends of stillbirth
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198TABLE 7.1. Increase of the Rate
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200Figure 7.11. Perinatal mortality
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202Figure 7.14. Trend of infant mor
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204Figure 7.19. Trend of mortality
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206TABLE 7.6. Causes of Death (%) o
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208TABLE 7.9. Estimates of the Numb
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210TABLE 7.11. Number of Additional
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212Buzhievskaya, T. I., Tchaikovska
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214Law of Ukraine (2006). About Sta
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216to and 3 years subsequent to the
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218Figure 1. Absolute number of the
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220pathology formation, prognosis).
Page 239 and 240:
222Twenty Years of Chernobyl Catast
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224TABLE 8.1. Concentration (Bq/m 3
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226Concentrations of Cs-131/Cs-134/
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228TABLE 8.6. Coefficients of Accum
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230Figure 8.2. The annual mean Cs-1
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232TABLE 8.10. Ground Deposition (k
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234ReferencesAarkrog, A. (1988). St
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236pectin-containing food additives
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238Figure 9.1. Radioautographs of p
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240TABLE 9.4. Levels of Radionuclid
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242TABLE 9.6. Inter- and Intraspeci
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244TABLE 9.8. Intensity of Cs-137 A
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246each place and time for each ind
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248TABLE 9.14. Frequency of Some Mo
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250TABLE 9.20. Change in Anthocyani
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252Grodzinsky, D. M. (2006). Reflec
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254after accident. Radiat. Biol. Ra
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256TABLE 10.1. Maximum Concentratio
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258Figure 10.2. Individual variabil
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260TABLE 10.4. Concentration of Som
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262TABLE 10.7. Some Recorded Cherno
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264isotope analyses on current and
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266TABLE 10.12. Abnormalities in La
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268TABLE 10.16. The Frequency of Do
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27015. Animals in the Chernobyl zon
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272TABLE 10.25. Immune Status of th
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274ReferencesAdamovich, V. L. (1998
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276Environmental Health (Center for
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278water bodies. Herald Nat. Belar.
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280E. V. (1996). Chromosome aberrat
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282with up to 40 Ci/km 2 (Zymenko e
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284Luk’yanova, E. M., Denysova, M
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286demonstrate a return to historic
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288enterosorbents, and Chapter IV.1
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290on contaminated foodstuffs avail
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292Figure 12.1. Countrywide mean co
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294TABLE 12.5. Concentration (pCi/l
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296TABLE 12.7. Cs-137 Body Burden i
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298Figure 12.5. Average specific ac
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300Figure 12.10. Body burden of Cs-
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302Omelyanets, N. I. (2001). Radioe
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304formation. The additives prevent
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306TABLE 13.2. EKG Normalization Re
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308increased sense of personal resp
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310Nesterenko, V. B. (2005). Radiat
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312require a separate monograph. Th
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3141. In the exclusion zone, which
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316Foods rich in K include potatoes
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CHERNOBYL15. Consequences of the Ch
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320• Inadequacy of modern knowled
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322with illnesses characteristic of
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324Chernobyl-contaminated areas, ra
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326information which can be unwante
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