10
Literature Cited

Akiyama M, Kusunoki Y, Umeki S, Hirai Y, Nakamura N, Kyoizumi S. 1992. Evaluation of four somatic mutation assays as biological dosimeter in humans. In: Dewey WC, Edington M, Fry RJM, Hall EJ, Whitmore GF, editors. Radiation research: A twentieth-century perspective. Volume II: Congress proceedings. San Diego, California: Academic Press. p 177–182.

Albertini RJ, Castle KL, Borcherding WR. 1982. T-cell cloning to detect the mutant 6-thioguanine-resistant lymphocytes present in human peripheral blood. Proc Natl Acad Sci (USA) 79:6617–6621.

Albertini RJ, Nicklas JA, O'Neill JP, Robison SH. 1990. In vivo somatic mutations in humans: measurement and analysis. Annual Review of Genetics 24:305–326.

Anspaugh LR, Church BW. 1986. Historical estimates of external exposure and collective external γ exposure from testing at the Nevada Test Site. I. Test series through Hardtack II 1958. Health Phys 51:35–51.

Anspaugh LR, Ricker YE, Black SC, Grossman RF, Wheeler DW, Church BW, Quinn VE. 1990. Historical estimates of external γ exposure and collective external γ exposure from testing at the Nevada Test Site. II. Test series after Hardtack II, and summary. Health Phys 59:525–532.

Armstrong B. 1990. Effects of measurement errors on estimates of exposure-response relationships. Recent Results Cancer Res 120:50–63.


Beck HL. 1980. Exposure rate conversion factors for radionuclides deposited on the ground. U.S. Department of Energy, Environmental Measurements Laboratory, Report EML-378.

Beck HL, Anspaugh LR. 1990. Development of the country data base. Estimates of exposure rates and times of arrival of fallout in the ORERP phase-II area. Comparison with cumulative deposition estimates based on analyses of retrospective and historical soil samples. U.S. Department of Energy, Las Vegas Operations Office, Report NVO-320.

Beck HL, Krey PW. 1983. Radiation exposures in Utah from Nevada nuclear tests. Science 220:18–24.



The National Academies | 500 Fifth St. N.W. | Washington, D.C. 20001
Copyright © National Academy of Sciences. All rights reserved.
Terms of Use and Privacy Statement



Below are the first 10 and last 10 pages of uncorrected machine-read text (when available) of this chapter, followed by the top 30 algorithmically extracted key phrases from the chapter as a whole.
Intended to provide our own search engines and external engines with highly rich, chapter-representative searchable text on the opening pages of each chapter. Because it is UNCORRECTED material, please consider the following text as a useful but insufficient proxy for the authoritative book pages.

Do not use for reproduction, copying, pasting, or reading; exclusively for search engines.

OCR for page 93
10 Literature Cited Akiyama M, Kusunoki Y, Umeki S, Hirai Y, Nakamura N, Kyoizumi S. 1992. Evaluation of four somatic mutation assays as biological dosimeter in humans. In: Dewey WC, Edington M, Fry RJM, Hall EJ, Whitmore GF, editors. Radiation research: A twentieth-century perspective. Volume II: Congress proceedings. San Diego, California: Academic Press. p 177–182. Albertini RJ, Castle KL, Borcherding WR. 1982. T-cell cloning to detect the mutant 6-thioguanine-resistant lymphocytes present in human peripheral blood. Proc Natl Acad Sci (USA) 79:6617–6621. Albertini RJ, Nicklas JA, O'Neill JP, Robison SH. 1990. In vivo somatic mutations in humans: measurement and analysis. Annual Review of Genetics 24:305–326. Anspaugh LR, Church BW. 1986. Historical estimates of external exposure and collective external γ exposure from testing at the Nevada Test Site. I. Test series through Hardtack II 1958. Health Phys 51:35–51. Anspaugh LR, Ricker YE, Black SC, Grossman RF, Wheeler DW, Church BW, Quinn VE. 1990. Historical estimates of external γ exposure and collective external γ exposure from testing at the Nevada Test Site. II. Test series after Hardtack II, and summary. Health Phys 59:525–532. Armstrong B. 1990. Effects of measurement errors on estimates of exposure-response relationships. Recent Results Cancer Res 120:50–63. Beck HL. 1980. Exposure rate conversion factors for radionuclides deposited on the ground. U.S. Department of Energy, Environmental Measurements Laboratory, Report EML-378. Beck HL, Anspaugh LR. 1990. Development of the country data base. Estimates of exposure rates and times of arrival of fallout in the ORERP phase-II area. Comparison with cumulative deposition estimates based on analyses of retrospective and historical soil samples. U.S. Department of Energy, Las Vegas Operations Office, Report NVO-320. Beck HL, Krey PW. 1983. Radiation exposures in Utah from Nevada nuclear tests. Science 220:18–24.

OCR for page 93
Bender M, Gooch PC. 1967. Chromosome aberrations in irradiated humans. In: Turano L, Ratti A, Biagini C, editors. Progress in radiobiology, Volume II. Amsterdam: Excerpta Medica Foundation. p 1421–1425. Boice JD, Land C. 1982. Ionizing radiation. In: Schottenfeld D, Fraumeni J, editors. Cancer epidemiology and prevention. Philadelphia, Pa: WB Saunders Co. p 231–153. Bouville A, Dreicer M, Beck HL, Hoecker WH, Church BW. 1990. Models of radioiodine transport to populations within the continental U.S. Health Phys 59:659–668. Brandão-Mello CE, Oliverira AR, Valverde NJ, Farina R, Cordeiro JM. 1991. Clinical and hematological aspects of 137 Cs: The Goiânia radiation accident. Health Phys 60:31–39. Brenk HD, Fairobent E, Markee EH, Jr. 1983. Transport of radionuclides in the atmosphere. In: Till JE, Meyer HR, editors. Radiological assessment: a textbook on environmental dose analysis. U.S. Nuclear Regulatory Commission, Report NUREG/CR-3332 p 2-1–2-86. Breslow NE, Day NE, editors. 1987. Statistical methods in cancer research. Volume II: The design and analysis of cohort studies. New York, NY: Oxford University Press. Bureau International des Poids et Mesures. 1991. Le systém international d'unités (SI) 6th ed. Bureau International des Poids et Mesures. Cate S, Ruttenber AJ, Conklin AW. 1990. Feasibility of an epidemiologic study of thyroid neoplasia in persons exposed to radionuclides from the Hanford nuclear facility between 1944 and 1956. Health Phys 59:169–178. Cederwall RT, Ricker YE, Cederwall PL, Homan DN, Anspaugh LR. 1990. Ground-based air-sampling measurements near the Nevada Test Site after atmospheric nuclear tests. Health Phys 59:533–540. Church BW, Wheeler DL, Campbell CM, Nutley RV, Anspaugh LR. 1990. Overview of the Department of Energy's Off-site Radiation Exposure Review Project (ORERP). Health Phys 59:503–510. Clayton DG. 1992. Models for the analysis of cohort and case-control studies with inaccurately measured exposures. In: Dwyer JH, Lippert P, Feinleib M, Hoffmeiser H, editors. Statistical models for longitudinal studies of health. New York, NY: Oxford University Press. p 301–331. De Klerk NH, English D, Armstrong B. 1989. A review of the effects of random measurement error on relative risk estimates in epidemiological studies. Int J Epidemiol 18: 705–712. Dolphin GW, Lloyd DC, Purrott RJ. 1973. Chromosome aberration analysis as a dosimetric technique in radiological protection. Health Phys 25:7–15. Eckerman KE, Ryman JC. 1993. External exposure to radionuclides in air, water, and soil. Federal Guidance Report 12, EPA 402-R-93-081. Washington, DC: Environmental Protection Agency. Engelmann RJ. 1970. Scavenging prediction using ratios of concentration in air and precipitation in precipitation scavenging. CONF-700601. Evans HJ, Buckton KE, Hamilton GE, Carothers A. 1979. Radiation-induced chromosome aberrations in nuclear-dockyard workers. Nature 277:531–534. Gavrilyan I, Gordeyev KI, Ivanov UK, Ilyin LA, Kondrusev AI, Margulis U, Stepanenko VF, Khrushch VT, Shirakev SM. 1992. Estimation of thyroid radiation according to the results of radiation internal monitoring of the Byelorussian population after the Chernobyl accident: Features and results. Vestn Akad Med Nauk SSSR. 2:35–43. Gilbert ES. 1982. Some confounding factors in the study of mortality and occupational exposures. Am J Epidemiol 116:177–188. Gilbert ES. 1989. Issues in analysing the effects of occupational exposure to low levels of radiation. Stat Med 8:173–187.

OCR for page 93
Gilbert ES. 1991a. Accounting for bias and uncertainty resulting from dose measurement errors and other factors. Br Inst Radiol Rpt 22:155–159. Gilbert ES. 1991b. Late somatic effects. In: Abrahamson S, Bender MA, Boecker BB, Gilbert ES, Scott BR, editors. Health effects models for nuclear power plant accident consequence analysis. Modification of models resulting from recent reports on health effects of ionizing radiation. Low LET radiation. Part II. Scientific basis for health effects models. NUREG/CR-4214. Rev. 1, Part II, Addendum 1, LMF-132. Gilbert ES, Cragle D, Wiggs L. 1993. Updated analyses of combined mortality data on workers at the Hanford site, Oak Ridge National Laboratory, and Rocky Flats weapons plant. Radiat Res 136:408–421. Godoy JM, Guimares JRD, Pereira JCA, Pires do Rio MA. 1991. Cesium-137 in the Goiania waterways during and after the radiological accident. Health Phys 60:99–103. Gooch PC, Bender MA, Randolph ML. 1964. Chromosome aberrations induced in human somatic cells by neutrons. In: Biological effects of neutron and proton irradiations, Volume I. Vienna: International Atomic Energy Agency. p. 325–342. Grant SG, Bigbee WL. 1993. In vivo somatic mutation and segregation at the human glycophorin A (GPA) locus: Phenotypic variation encompassing both gene-specific and chromosomal mechanisms. Mutat Res 288:163–172. Grant SG, Jensen RH. 1993. Use of hematopoietic cells and markers for detection and quantitation of human in vivo somatic mutation. In: Garratty G, editor. Immunobiology of transfusion medicine. New York, NY: Marcel Dekker, p. 299–323. Gray JW, Kallioniemi A, Pinkel D, Tkachuk D, Weier HU, Lucas J, Kallioniemi O, Straume T, Tenjin T, Kuo WL. 1991. Applications of fluorescence in situ hybridization. In: Gledhill BL, Mauro F, editors. Biological dosimetry and detection of disease-specific chromosome aberrations. New York: Wiley-Liss. p. 399–401. Greenland S. 1987. Quantitative methods in the review of epidemiologic literature. Epidemiol Rev 9:1–30. Greenland S. 1988. On sample-size and power calculations for studies using confidence intervals. Am J Epidemiol 128:231–237. Greenland S. 1992. Divergent biases in ecologic and individual-level studies. Stat Med 11:1209–1223. Greenland S, Morgenstern H. 1990. Ecological bias, confounding, and effect modification. Int J Epidemiol 19:764–767. Grossman RF, Thompson CB. 1990. The survey meter database: Results of radiation monitoring near the Nevada Test Site after nuclear tests. U.S. Department of Energy, Las Vegas Operations Office. Hammond SE. 1971. Industrial-type operations as a source of environmental plutonium. In: Fowler EB, Henderson RW, Milligan MR, editors. Proceedings of Environmental Plutonium Symposium, Los Alamos, New Mexico: Los Alamos National Laboratory, LA-4756. p 25–35. Hanna SR, Briggs GA, Hosker RP, Jr.1982. Handbook on atmospheric diffusion. Technical Information Center, U.S. Department of Energy. Hardy EP, Krey PW. 1971. Determining the accumulated deposit of radionuclides by soil sampling and analysis. In: Fowler EB, Henderson RW, Milligan MR, editors. Proceedings of Environmental Plutonium Symposium. Los Alamos, New Mexico: Los Alamos National Laboratory, LA-4756. p 37–42. Haskell EH, Bailiff IK, Kenner GH, Kaipa PL, Wrenn ME. 1994. Thermoluminescence measurements of gamma-ray doses attributable to fallout from the Nevada Test Site using building bricks as natural dosimeters. Health Phys 66:380–391. Health Physics. 1991. The Goiania radiation accident. Health Phys (Special issue) 60:1–113.

OCR for page 93
Heeb CM. 1992. Iodine-131 releases from the Hanford site, 1944 through 1947, Report PNWD-2033. Richland, Washington: Battelle, Pacific Northwest Laboratories. Heeb CM, Morgan LG. 1991. Iodine-131 in irradiated fuel at time of processing from December 1944 through December 1947, PNL-7253 HEDR, Richland, Washington: Battelle, Pacific Northwest Laboratories. Henderson RW, Smale RF. 1990. External exposure estimates for individuals near the Nevada Test Site. Health Phys 59:715–721. Hennekens CH, Buring JE. 1987. Epidemiology in medicine. Boston: Little and Brown. Hicks HG. 1982. Calculation of the concentration of any radionuclide deposited on the ground by off-site fallout from a nuclear detonation. Health Phys 42:585–600. Hicks HG. 1990. Additional calculations of radionuclide production following nuclear explosions and Pu isotopic ratios for Nevada test events. Health Phys 59:515–523. Hoffman FO. 1993. Analysis of exposure pathways for dose reconstruction and epidemiology. Presented at the National Academy of Sciences Workshop on Dose Reconstruction for Epidemiological Uses. October 25–27, 1993. Washington, DC. Howe GR, Chiarelli AM. 1988. Methodological issues in cohort studies. II: Power calculations. Int J Epidemiol 17:464–468. [IAEA] International Atomic Energy Agency. 1989. Safety practice publication of the IAEA: Evaluating the reliability of predictions using environment transfer models. Safety Series Number 100. STI/PUB/835. Vienna: International Atomic Energy Agency. p. 1–106. [ICRP] International Commission on Radiological Protection. 1979. Limits for intakes of radionuclides by workers. International Commission on Radiological Protection Publication 30 Part 1. Annals of the ICRP. 2(3/4). Pergamon Press, Oxford, England. [ICRP] International Commission on Radiological Protection. 1989. Age-dependent doses to members of the public from intake of radionuclides. ICRP Publication 56, Oxford: Pergamon Press. [ICRP] International Commission on Radiological Protection. 1991. Recommendations of the International Commission on Radiological Protection. Ann Intl Comm Radiol Protect 21:1–201. [ICRP] International Commission on Radiological Protection. 1995. Human respiratory tract model for radiological protection. A report of Committee 2 of the ICRP. Oxford: Pergamon. Janatipour M, Trainor KJ, Kutlaca R, Bennett G, Hay J, Turner DR, Morley AA. 1988. Mutations in human lymphocytes studied by an HLA selection system. Mutat Res 198:221–226. Jirka GH, Findikakis AN, Onishi Y, Ryan PJ. 1983. Transport of radionuclides in surface waters. In: Till JE, Meyer HR, editors. Radiological assessment. A textbook on environmental dose analysis. U.S. Nuclear Regulatory Commission, Report NUREG/CR-3332. Kendall GM, Muirhead CR, MacGibbon BH, O'Hagan JA, Conquest AJ, Goodill AA, Butland BK, Fell TP, Jackson DA, Webb MA, Haylock RGE, Thomas JM, Silk TJ. 1992. Mortality and occupational exposure to radiation: First analysis of the national registry for radiation workers. Br Med J 304:220–225. Kerber RA, Till JE, Simon SL, Lyon JL, Thomas DC, Preston-Martin S, Rallison ML, Lloyd RD, Stevens W. 1993. A cohort study of thyroid disease in relation to fallout from nuclear weapons testing. JAMA 270:2076–2082. Kheifets L. 1993. Cluster analysis: a perspective. Statistics in Medicine 12:1755–1757. Kleinbaum DG, Kupper L, Morgenstern H. 1982. Epidemiologic research: Principles and quantitative methods. Belmont, CA: Wadsworth.

OCR for page 93
Kossenko MM. 1991. Medical effects of population exposure to radiation as a result of radiation accidents in the Southern Urals. Abstract. Dissertation for the Degree of Medical Sciences. Institute of Biophysics, USSR Ministry of Health. Moscow. Kossenko MM, Degteva M. 1994. The follow-up of the population exposed as a result of the release of radioactive wastes into the Techa River. Part 3. Cancer mortality and risk evaluation. Sci Tot Environ. Kossenko MM, Degteva MO, Petrushova NA. 1992. Estimate of the risk of leukemia to residents exposed to radiation as a result of a nuclear accident in the Southern Urals. The PSR Quarterly 2:187–197. Kyoizumi S, Nakamura N, Hakoda M, Awa AA, Bean MA, Jensen RH, Akiyama M. 1989. Detection of somatic mutations at the glycophorin A locus in erythrocytes of atomic-bomb survivors using a single beam flow sorter. Cancer Res 49:581–588. Land CE, Sinclair WK. 1991. The relative contributions of different organ sites to the total cancer mortality associated with low-dose radiation exposure . In: Risks associated with ionising radiation. Annals of the ICRP 22, No. 1. Langer G. 1989. Resuspension of soil particles from Rocky Flats containing plutonium particulates: a review. Rockwell International, Rocky Flats Plant, Box 464, Golden, Colorado. Langlois RG, Bigbee WL, Kyoizumi S, Nakamura N, Bean MA, Akiyama M, Jensen RH. 1987. Evidence for increased somatic cell mutations at the glycophorin A locus in atomic bomb survivors. Science 236:445–448. Langlois RG, Akiyama M, Kusunoki Y, DuPont BR, Moore DH, WL Bigbee, Grant SG, Jensen RH. 1993. Analysis of somatic cell mutations at the glycophorin A locus in atomic bomb survivors: a comparative study of assay methods. Radiation Res 136:111–117. Likhtarev IA, Shandala NK, Gulko GM, Kairo A, Chepurny NI. 1993. Ukrainian thyroid doses after the Chernobyl accident. Health Phys 64:594–599. Littlefield LG, Sayer AM, Frome EL. 1989. Comparisons of dose-response parameters for radiation-induced acentric fragments and micronuclei observed in cytokinesis-arrested lymphocytes. Mutagenesis 4: 265–270. Littlefield LG, Joiner EE, Hubner KF. 1990. Cytogenetic techniques in biological dosimetry: Overview and example of dose estimation in 10 persons exposed to gamma radiation in the 1984 Mexican 60Co-accident. In: Mettler FA Jr., Kelsey CA, Ricks RC, editors. Medical management of radiation accidents. Boca Raton, Florida: CRC Press. p 109–126. Lloyd DC, Purrott RJ, Reeder EJ. 1980. The incidence of unstable chromosome aberrations in peripheral blood lymphocytes from unirradiated and occupationally exposed people. Mutation Res 72:523–532. Lloyd DC, Edwards AA, Prosser JJ, Barjaktarovic N, Brown JK, Horvot D, Ismail SR, Koteles GJ, Almassy Z, Krepinski A, Kucerova M, Littlefield LG, Mukherjee U, Natarajan AT, Sasaki MS. 1987. A collaborative exercise on cytogenetic dosimetry for simulated whole and partial body accidental irradiation. Mutat Res 179:197–208. Loevinger R, Budinger TF, Watson EE. 1991. MIRD primer for absorbed dose calculations. New York: The Society of Nuclear Medicine. Lucas JN, Tenjin T, Straume T, Pinkel D, Moore D, Litt M, Gray JW. 1989a. Rapid determination of human chromosome translocation frequency using a pair of chromosome-specific DNA probes. Int J Radiat Biol 56:35–44. Lucas JN, Tenjin T, Straume T, Pinkel D, Moore D, Litt M, Gray JW. 1989b. Letter to the Editor. Int J Radiat Biol 56:201.

OCR for page 93
Lucas JN, Awa A, Straume T, Poggensee M, Kodama Y, Nakano M, Ohtaki K, Weier W, Pinkel D, Gray J, Littlefield G. 1992a. Rapid translocation frequency analysis in humans decades after exposure to ionizing radiation. Int J Radiat Biol 62:53–63. Lucas JN, Poggensee M, Straume T. 1992b. The persistence of chromosome translocations in a radiation worker accidentally exposed to tritium. Cytogenetics Cell Genetics 60: 255–256. Lucas JN, Cox AB, McLean J. 1993. Human chromosome "painting" probes used to measure chromosome translocations in non-human primates: extrapolations from monkey to man. Radiation Protection Dosimetry 46:253–256. Lucas, JN, Swansbury G, Clutterbuck R, Hill F, Burk C, Straume T. 1994. Discrimination between leukemia- and non-leukemia-related chromosomal abnormalities in the patient's lymphocytes. Int J Radiat Biol 66:185–189. Mabuchi K, Soda M, Ron E, Tokunaga M, Ochikubo S, Sugimoto S, Ikeda T, Terasaki M, Preston DL, Thompson DE. 1994. Cancer incidence in atomic bomb survivors. Part I: Use of the tumor registries in Hiroshima and Nagasaki for incidence studies. Radiat Res 137:S-1-S-16. Megaw WJ. 1965. The absorption of iodine on atmospheric particles. J Nucl Energy 19:585–595. Mendelsohn ML, Peeters JP, Normandy MJ, editors. 1995. Biomarkers and occupational health: Progress and perspectives. Washington, DC: Joseph Henry Press. Monson RR. 1990. Occupational epidemiology. Boca Raton, Florida: CRC Press. Morley AA, Trainor KJ, Seshadri R, Ryall RG. 1983. Measurement of in vivo mutations in human lymphocytes. Nature 302:155–156. Nakano M, 1993. Frequency of reciprocal translocations and dicentrics induced in human blood lymphocytes by x-irradiation as determined by fluorescence in situ hybridization. Int J Radiat Biol 64:565–569. Napier BA. 1992. Determination of radionuclides and pathways contributing to cumulative dose. BN-SA-3673 HEDR. Richland, Washington: Battelle, Pacific Northwest Laboratories. [NCRP] National Council on Radiation Protection and Measurements. 1980. Influence of dose and its distribution in time on dose-response relationships for low-LET radiations. Washington, DC. National Council on Radiation Protection and Measurements, Report No. 64. [NCRP] National Council on Radiation Protection and Measurement. 1985. SI units in radiation protection and measurements. Report No. 82 . Bethesda, Maryland: National Council on Radiation Protection and Measurements. [NCRP] National Council on Radiation Protection and Measurements. 1993. Risk Estimates for Radiation Protection. Report No. 115. Bethesda, Maryland: National Council on Radiation Protection and Measurements. NRC] National Research Council, Committee on Dose Assignment and Reconstruction for Service Personnel at Nuclear Weapons Tests. 1985. Review of the methods used to assign radiation doses to service personnel at nuclear weapons tests. Washington, DC: National Academy Press. [NRC] National Research Council, Committee on the Biological Effects of Ionizing Radiations. 1990. Health effects of exposure to low levels of ionizing radiation (BEIR V). Washington, DC: National Academy Press. [NRC] National Research Council, Committee on an Assessment of CDC Radiation Studies. 1992. Dose reconstruction for the Fernald nuclear facility. Washington, DC: National Academy Press.

OCR for page 93
[NRC] National Research Council, Committee on an Assessment of CDC Radiation Studies. 1994a. Dose reconstruction for the Fernald nuclear facility: A review of task 4. Washington, DC: National Academy Press. [NRC] National Research Council, Committee on an Assessment of CDC Radiation Studies. 1994b. The Hanford environmental dose reconstruction project: a review of four documents. Washington, DC: National Academy Press. [NRC] National Research Council, Committee to Review Risk Management in the DoE's Environmental Remediation Program. 1994c. Building consensus through risk management of the Department of Energy's Environmental Remediation Program. Washington, DC: National Academy Press. [NRC] National Research Council, Committee on an Assessment of CDC Radiation Studies. 1995a. A review of two HEDR dosimetry reports: Columbia River pathway and atmospheric pathway. Washington, DC: National Academy Press. [NRC] National Research Council, Committee on Risk Assessment of Hazardous Air Pollutants. 1995b. Science and judgment in risk assessment. Washington, DC: National Academy Press. Neutra RR. 1990. Counterpoint from a cluster buster. Am J Epidemiol 132:1–8. Ng YC, Anspaugh LR, Cederwall RT. 1990. ORERP internal dose estimates for individuals. Health Phys 59:693–713. Nicklas JA, O'Neill JP, Albertini RJ. 1986. Use of T-cell receptor gene probes to quantify the in vivo hprt mutations in human T-lymphocytes. Mutation Res 173:67–72. Nikipelov B, Lyzlov A, Koshurnikova N. 1990. An experience of the first enterprise of the nuclear industry (levels of exposure and health of workers). Priroda 2:30–38. Petoussi N, Jacob P, Zankl M, Saito K. 1991. Organ doses for foetuses, babies, children, and adults from environmental gamma rays. Radiat Protection Dosimetry 37:31–39. Piantadosi S, Byar DP, Green SB. 1988. The ecological fallacy. Am J Epidemiol 127:893–904. Pinkel D, Landegent J, Collins C, Fuscoe J, Segraves R, Lucas JN, Gray J. 1988. Fluorescence in situ hybridization with human chromosome-specific libraries: Detection of trisomy 21 and translocations of chromosome 4. Proc Natl Acad Sci (USA) 85:9138–9142. Preston DL, Kusumi S, Tomonaga M, Izumi S, Ron E, Kuramoto A, Kamada N, Dohy H, Matsui T, Nonaka H, Thompson DE, Soda M, Mabuchi K. 1994. Cancer incidence in atomic bomb survivors. Part III: Leukemia lymphoma and multiple myeloma, 1950–1987. Radiat Res 137:568–598. Prosser JS, Edwards AA, Lloyd DC. 1989. A comparison of chromosomal and micronuclear methods for radiation accident dosimetry. In: Goldfinch EP, editor. Radiation protection—theory and practice. Malvern, Pennsylvania: Fourth International Symposium. Ramalho AT, Nascimento ACH. 1991. The fate of chromosomal aberrations in 137Cs-exposed individuals in the Goiania radiation accident. Health Phys 60:67–70. Ramalho AT, Nascimento ACH, Natarajan AT. 1988. Dose assessments by cytogenetic analysis in the Goiania (Brazil) radiation accident. Radiation Protection Dosimetry 23:97–100. Robkin MA. 1992. Experimental release of 131I: the Green Run. Health Phys 62:487–495. Rogers DR. 1975. Mound Laboratory environmental plutonium study, 1974. Springfield, Virginia: Technical Information Service, U. S. Department of Commerce. Ron E, Preston DL, Mabuchi I, Thompson DE, Soda M. 1994. Cancer incidence in atomic bomb survivors. Part IV: Comparison of cancer incidence and mortality. Radiat Res 137:598–5112. Rothman KJ. 1990. A sobering start for the cluster busters' conference. Am J Epidemiol 132:S-6-S-13.

OCR for page 93
Sehmel G. 1980. Particle and gas dry deposition review: A review. Atmos Environ 14:983–1011. Shimizu Y, Schull WJ, Kato H. 1990. Cancer risk among atomic bomb survivors. The RERF life span study. JAMA 264:622–623. Shipler DB, Napier BA. 1994. HEDR modeling approach. PNWD-1983 HEDR Rev. 1. Hanford, Washington: Battele, Pacific Northwest Laboratories. Shore RE, Iyer V, Altshuler B, Pasternack B. 1992. Use of human data in quantitative risk assessment of carcinogens: Impact on epidemiologic practice and the regulatory process. Regul Toxicol Pharmacol 15:180–221. Slade DH. 1968. Meteorology and atomic energy. AEC Technical Information Center. TID-24190. Slovic P. 1987. Perception of risk. Science 236:280–285. Stevens W, Thomas DC, Lyon JL, Till JE, Kerber RA, Simon SL, Lloyd RD, Elghany NA, Preston-Martin S. 1990. Leukemia in Utah and radioactive fallout from the Nevada Test Site: A case-control study. JAMA 264:585–591. Stevenson KA, Hardy EP. 1993. Estimate of excess uranium in surface soil surrounding the Feed Materials Production Center using a requalified data base. Health Phys 65:283–287. Stidley CA, Samet J. 1994. Assessment of ecologic regression in cancer and indoor radon. Am J Epidemiol 139:312–322. Straume T, Lucas JN. 1993. A comparison of the yields of translocations and dicentrics measured using fluorescence in situ hybridization. Int J Radiat Biol 64:185–187. Straume T, Lucas JN. 1995. Validation studies for monitoring of workers using molecular cytogenetics. In: Biomarkers in occupational health: Progress and perspectives. Mendelsohn ML, Peeters JP, Normandy MJ, editors, Washington, DC: Joseph Henry Press. p. 174–193. Straume T, Lucas JN, Tucker JD, Bigbee WL, Langlois RG. 1992. Biodosimetry for a radiation worker using multiple assays. Health Phys 62:122–130. Thompson DE, Mabuchi K, Soda M, Tokunaga M, Ochikubo S, Sugimoto S, Ikeda T, Terasaki M, Izumi S, Preston DL. 1994. Cancer incidence in atomic bomb survivors. Part II: Solid tumors, 1958–1987. Radiat Res 137:S-17-S-67. Till JE. 1993. Dose reconstruction: Establishing the framework for a public study. Presented at the National Academy of Sciences Workshop on Dose Reconstruction for Epidemiological Uses. October 25–27, 1993. Washington, DC. Trabalka JR, Auerbach SI. 1990. One western perspective of the 1957 Soviet nuclear accident. In: Proceedings on seminar on comparative assessment of the environmental impact of radionuclides released during three major nuclear accidents: Kyshtym, Windscale, Chernobyl. EUR-13574. p 41–69. [TSP] Technical Steering Panel. 1990. Technical Steering Panel of the Hanford Environmental Dose Reconstruction Project. Initial Hanford radiation dose estimates. Washington State Department of Ecology. [TSP] Technical Steering Panel. 1992. Technical Steering Panel of the Hanford Environmental Dose Reconstruction Project. Summary of final sources. Initial Hanford radiation dose estimates. Washington State Department of Ecology . [UNSCEAR] United Nations Scientific Committee on the Effects of Atomic Radiation. 1988. Sources, effects, and risks of ionizing radiation. New York, NY: United Nations. [UNSCEAR] United Nations Scientific Committee on the Effects of Atomic Radiation. 1993. Sources and effects of ionizing radiation. UNSCEAR 1993 report to the General Assembly, with scientific annexes. New York, NY: United Nations.

OCR for page 93
[UNSCEAR] United Nations Scientific Committee on the Effects of Atomic Radiation. 1994. Sources and effects of ionizing radiation. UNSEAR 1994 report to the General Assembly with scientific annexes. New York, NY: United Nations. [USEPA] United States Environmental Protection Agency. 1994. Estimating radiogenic cancer risks. Document Number EPA 402-R-93-076. Vital statistics of the United States. 1980. U.S. Department of Health and Human Services. Hyattsville, Maryland: National Center for Health Statistics. Voillequé PG, Gesell TF. 1990. Evaluation of environmental radiation exposures from nuclear testing in Nevada: A symposium. Health Phys 59:501–502. Voillequé PG, Meyer KR, Schmidt DW, Killough GG, Moore RE, Ichimura VI, Rope SK, Shleien B, Till JE. 1991. The Fernald Dosimetry Reconstruction Project. Tasks 2 and 3: radionuclide source terms and uncertainties—1960–1962. Neeses, South Carolina Radiological Assessments Corporation. Wachholz BW. 1990. Overview of the National Cancer Institute's activities related to exposure of the public to fallout from the Nevada Test Site. Health Phys 59:511–514. Walker A, Blettner M. 1985. Comparing imperfect measures of exposure. Am J Epidemiol 121:783–790. Whicker FW, Kirchner TB. 1987. PATHWAY: A dynamic food-chain model to predict radionuclide ingestion after fallout deposition. Health Phys 52:717–737. Whicker FW, Kirchner TB, Breshears DD, Otis MD. 1990. Estimation of radionuclide ingestion: The ''PATHWAY" food-chain model. Health Phys 59:645–657. Wolff S. 1991. Biological dosimetry with cytogenetic end points. In: Gledhill BL, Mauro F, editors. Biological dosimetry and detection of disease-specific chromosome aberrations. New York: Wiley-Liss. p 351–362. Zvonov IA, Balonov MI. 1993. Radioiodine dosimetry and prediction of consequences of thyroid exposure of the Russian population following the Chernobyl accident. In: Morwin S, editor. The Chernobyl papers. Vol. I: Doses to the Soviet population and early health effects studies. Richland, Washington: Research Enterprises Publishing Segment. p. 71–125.

OCR for page 93
This page in the original is blank.