RSH -- References : Low Level Radiation Health Effects

Abbat, J.D., Hamilton, T.R., Weeks, J.L. (1983) Epidemiological studies in three corporations covering the Canadian nuclear fuel cycle, Biological effects of low level radiation, IAEA : Vienna, 351.

Abe, M., Ishikawa, O., Miyachi, Y. and Kanai, Y. (1997) In vitro spontaneous and UVB-induced lymphocyte apoptosis are not specific to SLE. Photodermatol Photoimmunol Photomed 13, 204-7.

Abelson, P.H. (1990) Testing for carcinogens with rodents, Science 249,358.

Abelson, P.H. (1994) Risk assessments of low-level exposures [editorial] [see comments]. Science 265, 1507.

Académie des Sciences – Cadas (1999) Pollution atmosphérique due aux transports et santé publique – Paris.

Académie des Sciences – Paris (1989)- Risque des rayonnements ionisants et normes de radioprotection, 23,p72.

Académie des Sciences – Paris (1997). Problèmes liés aux faibles doses des rayonnements ionisants, Rapport no 834, 1995 (English translation : Problems associated with the effects of low doses of ionizing radiation. Report no 38).

Academie des Sciences, Rapport No. 34, Paris, (1995) Problemes lies aux effects des faibles doses des radiations ionisantes.

Adams, E.E. and Brues, A.M. (1980) Breast cancer in female radium dial workers first employed before 1930. J Occup Med 22, 583-7.

Adams, E.E., Brues, A.M. and Anast G.A. (1983) Survey of ocular cataracts in radium dial workers, Health Phys. 44 (Suppl. 1), 73-79.

Adams, G.E., Hasan, N.M. and Joiner, M.C. (1997) The Klaas Breur Lecture. Radiation, hypoxia and genetic stimulation: implications for future therapies. Radiother Oncol 44, 101-9.

Adams, J. (1998) A richter Scale for Risk ? The scientific Management of Uncertainty versus the Management of Scientific Uncertainty, In: Science and Technology Awareness in Europe : New Insights (Maria Vitale Ed.), European Communities, Bruxelles, 93-111.

Aghamiri, S. and Seaward, M. (1999) How Can Exposure To Indoor Radon Be Reduced? In: Proceedings on "The Effects of Low and Very Low Doses of Ionizing Radiation on Human Health," World Council of Nuclear Workers, June 16-18, St. Quentin en Yvelines, Versailles, France. Elsevier (in press).

Agro, A.F., Gown, P., Cifone, M.C., Ageletti, P.U. and Rotilio, G., (1980) Effect of hydrogen peroxide on lymphocytes, Develop. Biochem. 11B: 276-280.

Akashi, M., Hachiya, M., Paquette, R.L., Osawa, Y., Shimizu, S. and Suzuki, G (1995) Irradiation increases Manganese Superoxide Dismutase mRNA levels in human fibroblasts,J. Biol. Chem. 270: 15864-15869.

Akhmatullina, N.B., Leonard, A., Gerber, G.B., Iskandarova, K.A. and Tcherednitchenko, O.G. (1999) Studies on the Adaptive Response: Modifications in people professionally exposed to low doses and search for a transmissible conditioning factor. In: Proceedings on "The Effects of Low and Very Low Doses of Ionizing Radiation on Human Health," World Council of Nuclear Workers, June 16-18, St. Quentin en Yvelines, Versailles, France. Elsevier (in press).

Akiyama, M., Yamakido, M., Kobuke, K., Dock, D.S., Hamilton, H.B., Awa, A.A., et al (1983) Peripheral lymphocyte response to PHA and T cell population among atomic bomb survivors, Radiat. Res.;93: 572-80.

Akiyama, M., Zhou, O.L., Kusunoki, Y., Kyoizumi, S., Kohno, N., Akiba, S. and Delongchamp, R.R. (1989) Age and dose related alteration of in vitro mixed lymphocyte culture response of blood lymphocytes from A-bomb survivors. Radiat Res 117, 26-34.

Akleyev, A.V., Kossenko, M.M., Silkina, L.A., Degteva, M.O., Yachmenyov, V.A., Awa, A., Akiyama, M., Veremeyeva, G.A., Vozilova, A.V., Kyozumi, S. and et al. (1995) Health effects of radiation incidents in the southern Urals. Stem Cells 13 Suppl 1, 58-68.

Alavanja, M.C.R., Brownson, R.C., Lubin, J.H., Berger, E., Chang, J. and Boice, J.D. (1994) Residential radon exposure and lung cancer among Missouri women, 1. Natl. Cancer Inst. 86: p1829-1837.

Alberts, B. et al.: Molecular Biology of the Cell, Garland Publishing, 3rd Ed., New York (1994). (24) Friedberg, E.G., Walker, G.C., Siede, W.: DNA Repair and Mutagenesis, ASM Press, Washington, D.C. (1995).

Alexander, F.E., Boyle, P., Carli, P.M., Coebergh, J.W., Draper, G.J., Ekbom, A., Levi, F., McKinney, P.A., McWhirter, W., Magnani, C., Michaelis, J., Olsen, J.H., Peris-Bonet, R., Petridou, E., Pukkala, E. and Vatten, L. (1998) Spatial temporal patterns in childhood leukaemia: further evidence for an infectious origin. EUROCLUS project. Br J Cancer 77, 812-7.

Alexandrov, S. N. and Galkovskaja, K. F. (1959) On the variations in radioresistance of irradiated organisms, Med. Radiol. (Moscow) 4 , p15.

Allender, W.J. (1997) Effect of trifluoperazine and verapamil on herbicide stimulated growth of cotton. Journal of Plant Nutrition 20, 69-80.

Allender, W.J., Cresswell, G.C., Kaldor, J. and Kennedy, I.R. (1997) Effect of lithium and lanthanum on herbicide induced hormesis in hydroponically-grown cotton and corn. J Plant Nutrition 20, 81-95.

Alper, T. (1979) Cellular Radiobiology, Cambridge University Press, London, 1979.

Altemeier, W.A. and Jones, H.C. (1940) Experimental Peritonitis: Its Prevention by Roentgen Irradiation. JAMA, 20-22.

Alvarez, J.L. and Seiler, F.A. (1996) New Approaches to Low-Dose Risk Modeling. Technology: J. Franklin Inst. 333A, 33-51.

American Cancer Society (1997) Cancer Facts and Figures.

American Cancer Society, Landis, S.H., Taylor, M., Bolden, S., Wingo, P.A. (1998) Cancer statistics, CA-A Cancer Journal for Clinicians 48:6-29; Jan/Feb; 1998; New York: Lippincott-Raven; 1998.

Ames, B. (1989) Be most wary of nature’s own pesticides, Consumers Res., 72, p13.

Ames, B.N. and Gold, L.S. (1990) Chemical carcinogenesis : Too many rodent carcinogens, Proc. National Academy of Sciences of the USA 87: 7772-7776.

Ames, B.N. and Gold, L.S. (1997) Environmental pollution, pesticides and the prevention of cancer, Faseb J 11: 1041-1052.

Ames, B.N., Gold, L.S. and Wilier, W.C. (1995) The causes and prevention of cancer, Proc. Nat. Acad. Sci. USA 92:5258-5265.

Amundson, S.A., Bittner, M., Meltzer, P., Trent, J. and Fornace, A.J. (2001) Physiological function as regulation of large transcriptional programs: the cellular response to genotoxic stress. Comparative Biochemistry and Physiology B-Biochemistry & Molecular Biology 129, 703-710.

Anderson, A. and Woloschak, G.E. (1990) Proto-oncogene expression following exposure of mice to gamma-rays, Radiat Res. 130, 340-344.

Anderson, E.L. and the Carcinogen Assessment Group of the U. S. Environmental Protection Agency (1983) Quantitative Approaches in Use to Assess Cancer Risk, Risk Analysis 3:277-295.

Anderson, R.E. (1992) Effects of low-dose radiation on the immune response, In: Biological Effects of Low Level Exposures: Dose-Response Relationships (Calabrese E.J., ed). Chelsea, MI:Lewis, 95-112.

Anderson, R.E. and Lefkovits, I. (1980) Effects of irradiation on the in vitro immune response. Exp Cell Biol 48, 255-78.

Anderson, R.E. and Troup, G.M. (1982) Effects of irradiation upon the response of murine spleen cells to mitogens. Am J Pathol 109, 169-78.

Anderson, R.E., Lefkovits, I. and Troup, G.M. (1980) Radiation-induced augmentation of the immune response. Contemp Top Immunobiol 11, 245-74.

Anderson, R.E., Lefkowits, I. (1979) In vitro evaluation of radiation-induced augmentation of the immune response, Am. J. Pathol.; 97: 456-472.

Anderson, R.E., Tokuda, S., Williams, W.L. and Warner, N.L. (1982) Radiation-induced augmentation of the response of A/J mice to SaI tumor cells. Am J Pathol 108, 24-37.

Anderson, R.E., Tokuda, S., Williams, W.L. Spellman, C.W., (1986) Low-dose permits immunization of A/J mice with subimmunogenic numbers of Sal cells. Br. J. Cancer 54, 505-509

Anderson, R.E., Tokuda, S., Williams, W.R. and Warner, N. (1982) Radiation induced augmentation of the response of A/J mice to SaI tumor cells, Am. J. Pathol., 108, p24.

Anderson, R.E., Troup, G.M., Tokuda, S. and Warner, N.L. (1980) Radiation-induced augmentation of tumor rejection in mice, Proc. Fed. Am. Soc. Exp. Biol., 39, p331.

Anderson, R.E., Williams, W.L. and Tokuda, S. (1987) The effects of cyclophosphamide and irradiation singly and in combination upon SaI growth in A/J mice. Am J Pathol 127, 373-9.

Anderson, R.E., Williams, W.L. and Tokuda, S. (1988) Effect of low-dose irradiation upon T cell subsets involved in the response of primed A/J mice to SaI cells. Int J Radiat Biol Relat Stud Phys Chem Med 53, 103-18.

Anderson, R.E., Brubacher, L.L., Calvo, L.M.R., Burreson, E.M. and Unger, M.A. (1997) Effect of in vitro exposure to tributyltin on generation of oxygen metabolites by oyster hemocytes. Environmental Research 74, 84-90.

Andersson, M. and Storm, H.H. (1992) Cancer incidence among Danish Thorotrast-exposed Patients, J. Natl. Cancer Inst. 84, 1318-1325.

Andersson, M., Jonsson, M., Nielsen, L.L., Vyberg, M., Visfeldt, J., Storm, H.H. and Wallin, H. (1995) Mutations in the tumor suppressor gene p53 in human liver cancer induced by alpha-particles. Cancer Epidemiol Biomarkers Prev 4, 765-70.

Andersson, M., Juel, K., Ishikawa, Y. and Storm, H.H. (1994) Effects of preconceptional irradiation on mortality and cancer incidence in the offspring of patients given injections of Thorotrast. J Natl Cancer Inst 86, 1866-7.

Angleton, G.M. and Benjamin, S.A. (1987) Cumulative survival statistics for segment III beagles, In: Collaborative Radiological Health Laboratory Annual Report, 1986, Contract FDA 223-83-6028, Benjamin, S. A., Ed., Colorado State University, Ft. Collins, 5.

Angleton, G.M., Benjamin, S.A. and Lee, A.C. (1988) Health effects of low-level irradiation during development: experimental design and prenatal and early neonatal mortality in beagles exposed to 60Co rays, Radiat. Res., 115, p70.

Annual Report on Vital Events (1992) Vital Statistics Bulletin 56, Department of Economics and Statistics, Thiruvananthapuram, 1997.

Anonymous (1988) Low dose radiation and the immune system, J. Int. Radiat. Res., 53, 1.

Anonymous (1996a) The International Conference: One decade after Chernobyl: Summing up the consequences of the accident, Summary of the Conference Results, IAEA Information Circular, INFCIRC/510, 7 June, 1996.

Anonymous (1996b) Working Material, The International Conference: One decade after Chernobyl: Summing up the consequences of the accident, Environmental Impact and Prospects for the Future, IAEA, Vienna, IAEA/JI-CN-63.

ANS (1996) Low-level radiation health effects. In: Trans. ANS/ENS Meeting Washington DC, 403-432.

Anspaugh, L.R., Catlin, R.J. and Goldman, M. (1988) The global effect of the Chernobyl reactor accident,. Science 242: 1513-1519.

Apostol, S. and Clain, L. (1975) The Effect of Some Radioactivity Sources on the Plankton of the Danube River, Physik, Radiol. Chemie, 463-469 (Atomic Index (AI) 9:357568).

Appleby, A.P. (1998) The practical implications of hormetic effects of herbicides on plants. Human & Experimental Toxicology 17, 270-271.

Archer, A. (1896) Character of Roentgen rays, Eng.,22, 176.

Archer, V.E. (1987) Association of nuclear fallout with leukemia in the United States, Arch. Environ. Health 42:263-271

Argonne National Laboratory (1970) Conference on the Estimation of Low-Level Radiation Effects in Human Populations, Report ANL-7811, Dec. 1970.

Armitage, P. and Doll, R.(1954) The age distribution of cancer and a multi-stage theory of carcinogenesis, British Journal of Cancer 8, 1-12.

Arndt, D. (1992) Die Strahlenexposition in den Bergbaugebieten Sachsens und Thüringens, in: Reiners, Chr. et al (Ed.) Strahlenschutz in Forschung und Praxis, Vol 33, Stuttgart, 47-60.

Arrow, K.J., Cropper, M.L., Eads, G.C. et al. (1996) Is there a role for benefit – cost analysis in environmental, health and safety regulations, Science 272: 211-222.

Ashkenazi, A. and Dixit, V.M. (1998) Death receptors: signaling and modulation, Science 281: 1305-1308.

Astakova, L.N., Anspaugh L.R., Beebe, G.W., Bouville, A., Drozdovitch, V.V., Garber, V., Gavrilin, Y.I., Khrouch, V.T., Kuvshinnikov, A.V., Kuzmenkov, Y.N., Minenko, V.P., Moschik, K.F., Nalivko, A.S., Robbins, J., Shemiakina, E.V., Shinkarev, S., Tochitskaya, S.I. and Waclawiw, M.A. (1998) Chernobyl-related thyroid cancer in children of Belarus: a case-control study, Radiat. Res. 150: 349-356.

Atkinson, G.F. (1898) Report upon some preliminary experiments with the Roentgen rays on plants, Science, 7,7.

Auvinen, A., Makelainen, I., Hakama, M., Castren, O., Pukkala, E., Reisbacka, H. and Rytomaa, T. (1996) Indoor radon exposure and risk of lung cancer: a nested case-control study in Finland. J Natl Cancer Inst 88, 966-72.

Auvinen, A., Vahteristo, M., Arvela, H., Suomela, M., Rahola, T., Hakama, M. and Rytomaa, T. (2001) Chernobyl fallout and outcome of pregnancy in Finland. Environ Health Perspect 109, 179-85.

Awa, A.A. and Sofuni, T. (1978) Cytogenic study of offspring of atom bomb survivors, J. Radiat. Res., 19, p126.

Ayotte, P., Levesque, B., Gauvin, D., McGregor, R.G., Martel, R., Gingras, S., Walker, W.B. and Letourneau, E.G. (1998) Indoor exposure to 222Rn: a public health perspective. Health Phys 75, 297-302.

Azure, M.T., Archer, R.D., Sastry, K.S., Rao, D.V. and Howell, R.W. (1994) Biological effect of lead-212 localized in the nucleus of mammalian cells: role of recoil energy in the radiotoxicity of internal alpha-particle emitters. Radiation Research 140, 276-83.

Azzam, E.I., de Toledo, S.M., Gooding, T. and Little, J.B. (1998) Intercellular communication is involved in the bystander regulation of gene expression in human cells exposed to very low fluences of alpha particles,. Radiat. Res. 150, 497-504.

Azzam, E.I., De Toledo, S.M., Pykett, M.J., Nagasawa, H. and Little, J.B. (1997) CDC2 is down-regulated by ionizing radiation in a p53-dependent manner. Cell Growth and Differentiation 8, 1161-1169.

Azzam, E.I., de Toledo, S.M., Raaphorst, G.P. and Mitchel, R.E. (1996) Low-dose ionizing radiation decreases the frequency of neoplastic transformation to a level below the spontaneous rate in C3H 10T1/2 cells. Radiat Res 146, 369-73.

Azzam, E.I., de Toledo, S.M., Raaphorst, G.P. and Mitchel, R.E.J. (1992) Radiation-induced radioresistance in a normal human skin fibroblast cell line, In: Low Dose Irradiation and Biological Defense Mechanisms (Sugahara, T., Sagan, L.A., Aoyama, T., eds), Amsterdam:Elsevier; 291-294.

Azzam, E.I., Raaphorst, G.P. and Mitchel, R.E.J. (1994) Occupational exposure to radiation induces an adaptive response in human lymphocytes, Int J Radiat Biol 1995 Feb;67(2):187-91

Azzam, E.I., Raaphorst, G.P. and Mitchel, R.E.J. (1994) Radiation-induced adaptive response for protection against micronucleus formation and neoplastic transformation in C3H 10T1/2 mouse embryo cells. Radiat Res 138, S28-31.

Bacharach, M. (1977) Economics and the Theory of Games, Boulder (CO): Westview Press.

Backe, S., Bjerkc, H., Rudjord, A.L. and Ugleveit, F. (1980) Nedfall av cesium I Norge etter Tschernobylulykken, National Institute of Radiation Hygiene, Oslo, Report No. 1996-5.

Backe, S., Bjerke, H., Rudjord, A.L. and Ugleveit, F. (1986) Nedfall ay cesium i Norge etter Tschernobylulykken, National Institute of Radiation Hygiene, Oslo, Report No. 1986-5.

Bae, D.S., Gennings, C., Carter, W.H., Jr., Yang, R.S. and Campain, J.A. (2001) Toxicological interactions among arsenic, cadmium, chromium, and lead in human keratinocytes. Toxicol Sci 63, 132-42.

Bai Ou, Liu Shuzheng, Mu Ying. (1998) Effect of low dose radiation on Th1 and Th2 of thymocytes and splenocytes in mice. Chin. J. Radiol. Med. Prot., 18(2):106-109.

Bai, Y. and Chen, D. (1993) Accumulative effect of two low doses of irradiation in inducing an adaptive response in human lymphocytes, Mutat. Res. 302: 191-196.

Bailar, J.C. and Ederer, F. (1964) Significance Factors for the Ratio of a Poisson Variable to Its Expectation, Biometrics 20:639-643.

Bailer, A.J. and Oris, J.T. (1998) Incorporating hormesis in the routine testing of hazards. Hum Exp Toxicol 17, 247-50.

Bair, W.J. (1974) Toxicity of plutonium, Advances in Radiation Biology, 4, 255-425, ed J.T. Lett, H. Adler and M. Zelle (New York: Academic).

Bair, W.J. (1979) Metabolism and biological effects of alpha-emitting radionuclides, Proceedings 6th International Congress of Radiation Research, (Tokyo, Japan), p903.

Bakos, I., Csepregi, I. and Simon, J. (1980) Increasing the fertility rate of common carp eggs by using gamma ray irradiated sperm, Aquacult. Hung., 11, p22.

Bala, M. and Mathew, L. (2000) Radiation hormesis and its potential to manage radiation injuries. Journal of Scientific and Industrial Research 59, 988-994.

Balaram, P. and Mani, K.S. (1994) Low dose radiation--a curse or a boon? Natl Med J India 7, 169-72.

Balaram, P., Padmanabhan, T.K. and Vasudevan, D.M. (1988) Role of levamisole as an adjuvant to radiotherapy in oral cancer, II, Lymphocyte subpopulations, Neoplasma; 35: 235-42.

Balentine, J.D. (1982) Pathology of Oxygen Toxicity. London and New York: Academic Press.

Barcinski, M.A., Abreu, M.C., Almeida, J.C., Naya, J.M., Fonseca, G. and Castro, L.E. (1975) Cytogenetic investigation in a Brazilian population living in an area of high natural radioactivity, Am. J. Hum. Genet., 27, p802.

Barnaby, F. (1988) The need to revise radiation risk estimates, Ambio 17, 70.

Barnes, D.G. (2000) Reference dose (RfD): the possible impact of hormesis. Journal of Applied Toxicology 20, 127-130.

Barquinero, J.F., Barrios, L., Caballin, M.R., Miro, R., Ribas, M., Subias, A. and Egozcue, J. (1996) Decreased sensitivity to the cytogenetic effects of bleomycin in individuals occupationally exposed to ionizing radiation. Mutat Res 354, 81-6.

Barquinero, J.F., Barrios, L., Caballin, M.R., Miros, R., Ribas, M., Subias, A. and Egozcue, J. (1995) Occupational exposure to radiation induces an adaptive response in human lymphocytes. Int. J. Radiat. Biol. 67,, 187-191.

Bartell, S.M. (2000) Are ecosystems hormetic? Human and Ecological Risk Assessment 6, 237-243.

Bartstra, R.W. (1997) Theoretical plausibility of a non-linear dose-response relationship in low dose radon carcinogenesis. In: Abstracts of International Workshop on Indoor Radon Exposure and its Health Consequences, National Institute of Radiological Sciences, Chiba, Japan., p. 28-30.

Bartstra, R.W., Bentvelzen, P.A., Zoetelief, J., Mulder, A.H., Broerse, J.J. and van Bekkum, D.W. (1998) The influence of estrogen treatment on induction of mammary carcinoma in rats by single-dose gamma irradiation at different ages. Radiat Res 150, 451-8.

Bartstra, R.W., Bentvelzen, P.A., Zoetelief, J., Mulder, A.H., Broerse, J.J. and van Bekkum, D.W. (1998) Induction of mammary tumors in rats by single-dose gamma irradiation at different ages. Radiat Res 150, 442-50.

Bass, F. and Jaroschka, K. (1928) Resistenzsteigerung gegen Streptokokkensepsis durch Roentgenstrahlen im Tierversuch, Strahlentherapie, 28, 568.

Bass, L., Green, H.S. and Boxenbaum, H. (1989) Gompertzian mortality derived from competition between cell-types: congenital, toxicologic and biometric determinants of longevity. J Theor Biol 140, 263-78.

Bauchinger, M., Schmidt, E., Braselman, H., Nahrstedt, U., (1989) Absence of adaptive response to low level irradiation from tritiated thymidine and X-rays in lymphocytes of two individuals in serial experiments, Mutation Research, 227, 103-107

Baverstock K.F., Papworth D. and Vennart J. (1981) Risks of radiation at low dose rates, The Lancet I (8217), 430-433.

Baylin, G.J., Dubin, I.N. and Gobbel, W.G. (1946) The effect of roentgen therapy on experimental virus pneumonia. In: On feline virus pneumonia, Proc. Soc. Exp. Biol. Med., 69, p473.

Beaumont, J.J. and Breslow, N.E. (1981) Power considerations in epidemiologic studies of vinyl chloride workers, Am. J. Epidemiol. 114:725-734.

Becker, K. (1995) Editorial, A loss of innocence? Radiation Protection Dosimetry, 59,, 243-245.

Becker, K. (1996) Wie teuer ist und Radon - und weshalb? atw 41, 108-109.

Becker, K. (1996a) Some economical, social and political consequences in Western Europe, Proceed. Internat. Conf. One decade after Chernobyl (IAEA-CN-63/196) Vienna, 8-12 April 1996

Becker, K. (1996b) Radon in Europe. Proceed. ANS/ENS Meeting, Washington D.C., p418.

Becker, K. (1996c) Tschernobyl-Nachlese, atw 41, 420, (also see K. Becker: Ten Years after Chernobyl, Proceed. ANS/ENS Meeting Washington 1996, 428).

Becker, K. (1997) Do we need a new cost/benefit assessment for low radiation doses? In: Low Doses of Ionizing Radiation: Biological Effects and Regulatory Control, p. 436-440.

Becker, K. (1997b) Threshold or no threshold, is that the question? Editorial, Radiat. Protect. Dosimetry, in press - see also K. Becker, Strahlenschutzpraxis, in press.

Becker, K. (1997c) Threshold or no threshold, that is the question. Radiation Protection Dosimetry 71, 3-5.

Becker, K. (1998) How dangerous are low doses? The debate about linear vs, threshold effects, Nucl. Europe Worldscan, No. 3-4, 29-31 - see also Becker, K., and Roth, R., Zur Wirkung kleiner Strahlendosen, atw 43(10), 616-620, 1998.

Becker, K. (1999) How dangerous is residential radon? In: Proceedings on "The Effects of Low and Very Low Doses of Ionizing Radiation on Human Health," World Council of Nuclear Workers, June 16-18, St. Quentin en Yvelines, Versailles, France. Elsevier (in press).

Becker, K., and Roth, E., Zur Wirkung kleiner Strahlendosen, atw, in press.

Becker, K., and Schüttmann, W. (1998) Was ist eigentlich aus dem Radon geworden? Strahlenschutzpraxis 3, 54-58.

Becker, K., Neues zum oberirdischen Radon, Strahlenschutzpraxis, in press

Becker, N., Frentzel-Beyme, R. and Wagner, G. (1984) Atlas of cancer mortality in the Federal Republic of Germany, Vol 1, Springer Heidelberg Berlin New York, p4.

Bedford, J.S., and Griggs, H.G., (1975) The Estimation of Survival at Low Doses and the Limits of Resolution of the Single-Cell Plating Technique, In: Cell Survival After Low Doses of Radiation: Theoretical and Clinical Implications, . 34-39, Editor: T. Alper, Wiley, London.

Bedford, J.S., Mitchell J.C. and Fox, M.H., (1980) Variations in Responses of Several Mammalian Cell Lines to Low Dose-Rate Irradiation. In Radiation Biology in Cancer Research (R.E. Meyn and H.R. Withers, Eds.), 251-262, Raven Press, New York .

Beebe, G.W. (1982) National Cancer Institute, 5A 21 Landow Building, Bethesda, MD 20205, Personal communication (April).

Beebe, G.W., Karo, H. and Land, C.E. (1978) Studies of the mortality of A-Bomb survivors, Mortality and radiation dose, 1950-1974, Radiat. Res., 75, 1, 138-201.

BEIR (1972) The effects on populations of exposure to low levels of ionizing radiation, Report of the Advisory Committee on the Biological Effects of Ionizing Radiations (BEIR Committee), Division of Medical Sciences, National Academy of Sciences-National Research Council, Washington, D.C., public policy2, 128-132.

BEIR III (1980) The effects on populations of exposure to low levels of ionizing radiation, National Academy Press, Washington, D.C.

BEIR IV, National Research Council (NRC) (1988) Health risks of radon and other internally deposited alpha-emitters, NRC Committee on the Biological Effects of Ionizing Radiations, National Academy Press, Washington, DC.

BEIR V (1990) Health effects of exposure to low levels of ionizing radiation, Report of the Advisory Committee on the Biological Effects of Ionizing Radiations (BEIR Committee) National Academy of Sciences-National Research Council, Washington, D.C.

BEIR V. (1990) Health effects of exposure to low levels of ionizing radiation, Report of the Advisory Committee on the Biological Effects of Ionizing Radiations (BEIR V Committee). In. National Academy of Sciences-National Research Council,, Washington, D.C., p. 212.

BEIR V. (1990) Health effects of exposure to low levels of ionizing radiation, Report of the Advisory Committee on the Biological Effects of Ionizing Radiations (BEIR V Committee), 5. Radiogenic Cancer at Specific Sites, Colon and Rectum. In. National Academy of Sciences-National Research Council,, Washington, D.C., p. 301.

BEIR V. (1990) Health effects of exposure to low levels of ionizing radiation, Report of the Advisory Committee on the Biological Effects of Ionizing Radiations (BEIR V Committee), 5. Radiogenic Cancer at Specific Sites, Leukemia. In. National Academy of Sciences-National Research Council,, Washington, D.C., p. 242.

BEIR V. (1990) Health effects of exposure to low levels of ionizing radiation, Report of the Advisory Committee on the Biological Effects of Ionizing Radiations (BEIR V Committee), 5. Radiogenic Cancer at Specific Sites, Prostate Cancer. In. National Academy of Sciences-National Research Council,, Washington, D.C., p. 316.

BEIR V. (1990) Health effects of exposure to low levels of ionizing radiation, Report of the Advisory Committee on the Biological Effects of Ionizing Radiations (BEIR V Committee), 5. Radiogenic Cancer at Specific Sites, Lymphoma and Multiple Myeloma. In. National Academy of Sciences-National Research Council,, Washington, D.C., p. 327-328.

BEIR V. (1990) Health effects of exposure to low levels of ionizing radiation, Report of the Advisory Committee on the Biological Effects of Ionizing Radiations (BEIR V Committee), 5. Radiogenic Cancer at Specific Sites, ?[stomach or lung]. In. National Academy of Sciences-National Research Council,, Washington, D.C., p. 278.

BEIR V. (1990) Health effects of exposure to low levels of ionizing radiation, Report of the Advisory Committee on the Biological Effects of Ionizing Radiations (BEIR V Committee), 4 Risk of Cancer - All Sites, Annex 4A Summary of major Epidemiological Studies Used in BEIR V. In. National Academy of Sciences-National Research Council,, Washington, D.C., p. 184.

BEIR V. (1990) Health effects of exposure to low levels of ionizing radiation, Report of the Advisory Committee on the Biological Effects of Ionizing Radiations (BEIR V Committee), 4 Risks of Cancer - All Sites. In. National Academy of Sciences-National Research Council, Washington, D.C., p. 162-163.

BEIR V. (1990) Health effects of exposure to low levels of ionizing radiation, Report of the Advisory Committee on the Biological Effects of Ionizing Radiations (BEIR V Committee), 5. Radiogenic Cancer at Specific Sites,. In. National Academy of Sciences-National Research Council,, Washington, D.C., p. 317.

BELLE (1997) [Biological Effects of Low-Level Exposures] Newsletter, 6(1): 1-27.

BELLE Newsletter (1999) Special issue on the adaptive response induced by low levels of radiation, 7/3, March 1999

Belousova, O.I., Gorizontov, P.D., Fedotova, M.I. (1979) Radiation and reaction of the blood system, Moscow: Atomizdat (in Russian)

Belyaev, I.Y., Spivak, I.M., Kolman, A. and Harms-Ringdahl, M. (1996) Relationship between radiation induced adaptive response in human fibroblasts and changes in chromatin conformation. Mutation Research/Fundamental and Molecular Mechanisms of Mutagenesis 358, 223-230.

Belyakov, O.V., Folkard, M., Mothersill, C., Prise, K.M. and Michael, B.D. (2000) Bystander Effect and Genomic Instability, Challenging the Classic Paradigm of Radiobiology. In: Timofeeff-Ressovsky centenial conference, "Modern Problems of Radiobiology, Radioecology and Evolution" -Joint Institute for Nuclear Research, Dubna, Russia.

Belyakov, O.V., Malcolmson, A.M., Folkard, M., Prise, K.M. and Michael, B.D. (2001) Direct evidence for a bystander effect of ionizing radiation in primary human fibroblasts. Br J Cancer 84, 674-9.

Beral, V. and Reeves, G. (1992) Childhood thyroid cancer in Belarus, Nature 359:p680-681.

Beral, V., et al (1988). Mortality of employees of the atomic weapons establishment. Brit. Med. J. 297:757-770.

Berden, M., Jerman, I. and Skarja, M. (1997) Indirect instrumental detection of ultraweak, presumably electromagnetic radiation from organisms. Electro- and Magnetobiology 16, 249-266.

Berezina, N.M. (1975) Presowing irradiation of seeds of agricultural plants, Oak Ridge National Laboratory U.S. Atomic Energy Com.

Berk, L.B. and Hodes, P.J. (1991) Roentgen therapy for infections: an historical review. Yale J Biol Med 64, 155-65.

Bernardinelli, L., de Marco, R. and Tinelli, C. (1987) Cancer mortality in an Italian rubber factory. Br J Ind Med 44, 187-91.

Bernhard, E.J., Maity, A., Muschel, R.J. and McKenna, W.G. (1995) Effects of ionizing radiation on cell cycle progression, Radiat. Environ. Biophys. 34: 79-83.

Berry, R.J.e.a. (1994) Biological markers, morbidity, and mortality in a long-serving radiation worker population. In: ANS Trans., Vol. 71, p. 40.

Bhatia, R., Lopipero, P. and Smith, A. (1998) Diesel exhaust exposure and lung cancer, Epidemiology, 9: 84-91.

Bhattacharjee, D. (1996) Role of radioadaptation on radiation-induced thymic lymphoma in mice. Mutation Research/Fundamental and Molecular Mechanisms of Mutagenesis 358, 231-235.

Bhattathiri, V.N. (1992) Radiation and the risk of second primary tumours of the oral cavity, In: Proceedings of the International symposium on low level radiation and the living state, Bombay.

Bickham, J.W., Sawin, V.L., Smolen, M.J. and Derr, J.N. (1995) Further flow cytemetric studies of the effects of triethylenemelamine on somatic and testicular tissues of the rate, Cytometry 15: 222-229.

Bigbee, W.L., Jensen, R.H., Veidebaum, T., Tekkel, M., Rahu, M., Stengrevics, A., Auvinen, A., Hakulinen, T., Servomaa, K., Rytomaa, T., Obrams, G.I. and Boice, J.D., Jr. (1997) Biodosimetry of Chernobyl cleanup workers from Estonia and Latvia using the glycophorin A in vivo somatic cell mutation assay. Radiat Res 147, 215-24.

Billen, D. (1990) Spontaneous DNA damage and its significance for the "negligible dose" controversy in radiation protection [see comments]. Radiat Res 124, 242-5.

Birchall, A. and James, A.C. (1994) Uncertainty analysis of the effective dose per unit exposure from radon progeny and implications for ICRP risk-weighting factors, Radiol. Prot. Dosim. 53, 133-140.

Birkner, R., Meyer, R.D. and Trautmann, J. (1957) On the mechanism of low dose radiation in experiments with Friedlander septicemia, Strahlentherapie, 103, 552.

Biró, T., Fehér, I., Sztanyik, L.B. (1986) Radiation consequences in Hungary of the Chernobyl accident, Int. Agrophysics, 2(4), 291-313.

Bisgard, J.D., Hunt, H.B., Neely, O.A. and Scott, P. (1942) Experimental studies of the mechanism of action of X-ray therapy upon infection, Radiology, 39, 691. See also Ann. Surg., 115, 996.

Bisgard, J.P., Hunt, H.B. and Dickinson, R.H. (1944) Effect of X-ray irradiation upon bacterial toxemia in rabbits, Radiology, 43, 330.

Bishop, M., et.al. (1989) Cancer, Chapter 21 In: Molecular Biology of the Cell, B. Alberts et.al., eds., Garland Publishing, New York.

Bithell, J.F. and Stiller, C.A. (1988) A new calculation of the carcinogenic risk of obstetric x-raying. Stat. Med. 7:p857.

Black, R.J., Sharp, L., Finlayson, A.R. and Harkness, E.F. (1994) Cancer incidence in a population potentially exposed to radium-226 at Dalgety Bay, Scotland. Br J Cancer 69, 140-3.

Blair, H. A. (1964) The shortening of life span by a single injection of radium, plutonium or polonium, Radiat. Res., 5, 216.

Bless, A.A., Bless, A.L. and Romanoff, A.L. (1943) Stimulation of the development of the avian embryo by X-rays, J. Cell Comp. Physiol., 21, 117.

Bloom, E.T., Akiyama, M., Kusunoki, Y. and Makinodan, T. (1987) Delayed effects of low-dose radiation on cellular immunity in atomic bomb survivors residing in the United States, Health Phys., 52, 585.

Bloom, E.T., Akiyama, M., Kusunoki, Y. and Makinodan, T. (1987, 1988) Delayed effects of low-dose radiation on cellular immunity in atomic bomb survivors residing in the United States, Radiat. Res., 116, 343.

Bloom, E.T., Korn, E.L., Takasugi, M., Toji, D.S., Onari, K. and Makinodan, T. (1983) Immune function in aging atom bomb survivors residing in the United States, Radiat. Res., 96, 399.

Bloom, E.T., Korn, E.L., Takasugi, M., Toji, D.S., Onari, K., Makinodan, T. (1983) Immune function in aging atomic bomb survivors residing in the United States // Radiet. Res. Vol. 96, 2, 399–410.

Blot, W.J., Xu, Z.Y., Boice, J.D., Jr, Zhao, D.Z., Stone, B.J., Sun, J., Jing, L.B. and Fraumeni, J.F., Jr. (1990) Indoor radon and lung cancer in China, J. Natl Cancer Inst., 82, 1025-1030.

BMI (1984) Die Krebssterblichkeit in der Bundesrepublik Deutschland 1970-1978. Bundesministerium des Innerem Verlag TUV Rheinland, Cologne.

Boche, R.D. (1967) Effects of chronic exposures to X radiation on growth and survival, In: Biological Effects of External Radiation, Blair, H. A., Ed., McGraw-Hill, NY, 222.

Bogen, K.T. (1996) A cytodynamic two stage model that predicts radon hormesis (decreased, then increased lung-cancer risk vs. exposure),. In. Lawrence Livermore National Laboratory, University of California,.

Bogen, K.T. (1996b) A cytodynamic two-stage model that predicts radon hormesis (decreased, then increased lung-cancer risk vs. exposure), Preprint UCRL-JC-123219. Lawrence Livermore National Laboratory, Livermore, CA (40 p150 references)

Bogen, K.T. (1997) Do US county data disprove linear no-threshold predictions of lung cancer risk for residential radon? A preliminary assessment of biological plausibility. Human and Ecological Risk Assessment 3, 157-186.

Bogen, K.T. (1998) Mechanistic model predicts a U-shaped relation of radon exposure to lung cancer risk reflected in combined occupational and US residential data. Hum Exp Toxicol 17, 691-6; discussion 701-4, 708-18.

Bogen, K.T. (1998) Mechanistic model predicts U-shaped relation of radon exposure to lung cancer risk reflected in combined occupational and U.S. residential data, BELLE Newsletter 7(2) Nov 1998.

Bogen, K.T. and Layton, D.W. (1998) Risk management for plausibly hormetic environmental carcinogens: the case of radon. Hum Exp Toxicol 17, 463-7.

Boice, J.D. (1997) Radon, your home or mine?, Radiat. Res., 147, 135-137

Boice, J.D. Jr, Morin, M.M., Glass, A.G., Friedman, G.D., Stovall, M., Hoover, R.N. and Fraumeni, J.F. Jr (1991) Diagnostic x-ray procedures and risk of leukemia, lymphoma, and multiple myeloma, Epidemiology and Biostatistics Program, National Cancer Institute, Bethesda, MD 20852. JAMA 265:1290-1294.

Boice, J.D., Blettner, M., Kleinerman, R.A. et al. (1987) Radiation dose and leukemia risk in patient treated for cancer of the cervix, J. Nat. Cancer Inst. 79: 1295-1311.

Boice, J.D., Jr. and Land, C.E. (1979) Adult leukemia following diagnostic X rays, Am. J. Public Health, 64, 137.

Boice, J.D., Jr. and Land, C.E. (1982) Ionizing radiation, in Cancer Epidemiology and Prevention, Schottenfeld, D. and Fraumeri, J.F., Eds., W.B. Saunders, Philadelphia, 231.

Boice, J.D., Mandel, J.S. and Doody, M.M. (1995) Breast cancer among radiologic technologists,. JAMA 274, 394-401.

Boice, J.D.J., Morin, M.M., Glass, A.G., Friedman, G.D., Stovall, M., Hoover, R.N. and Fraumeni, J.F.J. (1991) Diagnostic x-ray procedures and risk of leukemia, lymphoma, and multiple myeloma, Epidemiology and Biostatistics Program, National Cancer Institute, Bethesda, MD 20852. JAMA 265, 1290-1294.

Bomko, E.I. (1998) Epidemiology of thyroid cancer among children having been exposed to radiation in consequence of the Chernobyl accident, International Seminar “Radiation and Thyroid Cancer” Cambridge, United Kingdom.

Bomko, Y. and Romanenko, A. (1999) Some Aspects Of Low Radiation Doses Impact On Human After The Chernobyl NPP Accident,. In: Proceedings on "The Effects of Low and Very Low Doses of Ionizing Radiation on Human Health," World Council of Nuclear Workers, June 16-18, St. Quentin en Yvelines, Versailles, France. Elsevier (in press).

Bond, V.P. (1994) The implausible current interpretations of radiobiological linear, non-threshold functions, In: American Nuclear Society Transactions, 13-17 November 1994, Washington, D.C. 71:43-44.

Bond, V.P., Feinendegen, L.E. and Sondhaus, C.A. (1987) Microdosimetric concepts applied to hormesis, Health. Phys., 52, 659.

Bond, V.P., Wielopolski, L. and Shani, G. (1996) Current misinterpretations of the linear no-threshold hypothesis. Health Physics 70, 877-82.

Bonham, K. and Donaldson, L.R. (1966) Low level chronic irradiation of salmon eggs and alevins, In: Disposal of Radioactive Wastes into Seas, Oceans, and Surface Waters, International Atomic Energy Agency, Vienna, 869.

Boothman, D.A., Bouvard, I. and Hughes, E.N. (1989) Identification and characterization of X-ray-induced proteins in human cells, Cancer Res. 49, 2871-2878.

Boothman, D.A., Meyers, M., Odegaard, E. and Wang, M. (1996) Altered G1 checkpoint control determines adaptive survival responses to ionizing radiation. Mutation Research/Fundamental and Molecular Mechanisms of Mutagenesis 358, 143-153.

Boreham, D.R., Dolling, J.A., Maves, S.R., Siwarungsun, N. and Mitchel, R.E. (2000) Dose-rate effects for apoptosis and micronucleus formation in gamma- irradiated human lymphocytes. Radiat Res 153, 579-86.

Borodin, P.M., Inouye, M., Oda, S., Ikushima, T., Takagishi, Y. and Yamamura, H. (1994) Radioadaptive response in primary mouse spermatocytes revealed by analysis of synaptonemal complexes. Mutat Res 310, 151-6.

Bosi, A. and Olivieri, G. (1989) Variability of the adaptive response to ionizing radiations in humans, Mutation Res., 211, 13-17.

Bouvard, V., Zaitchouk, T., Vacher, M., Duthu, A., Canivet, M., Choisy-Rossi, C., Nieruchalski, M. and May, E. (2000) Tissue and cell-specific expression of the p53-target genes: bax, fas, mdm2 and waf1/p21, before and following ionising irradiation in mice,. Oncogene, 19, 649-60.

Bowers, E.J., Hickey, R.J., Junker, L.L., Zemel, B.S., Allen, I.E., Clelland, A.B. and Clelland, R.C. (1984) Bisocial factors in infant mortality: multivariate analysis of rates of births, lethal congenital defects and infant mortality, Proc. III Int. Congr. Auxology, Human Growth and Development, Plenum Press, New York.

Boxenbaum, H. (1992) Hypothesis on Mammalian Aging, Toxicity, and Longevity Hormesis: Explication by a Generalized Gompertz Function. In: Biological Effects of Low Level Exposures to Chemicals and Radiation,. Lewis Publishers,, Chelsea, Michigan, p. 1-39.

Boxenbaum, H., McCullough, C.B. and Di Carlo, F.J. (1985-86) Mortality kinetics in chronic toxicity studies, Drug Metab. Rev. 16, 321-362.

Braby, L.A. (1991) Phenomenological models, Basic Life Sci. 58:339-361

Bradshaw, AD, Chadwick, M.J., Jowett, D and Snaydon, E..W. (1964) Experimental investigations into the mineral nutrition of several grass species, Journal of Ecology 52: 665-676.

Bravard, A., Luccioni, C., Moustacchi, E. and Rigaud, O. (1999) Contribution of antioxidant enzymes to the adaptive response to ionizing radiation of human lymphoblasts,. Int. J. Radiat. Biol. 75, 639-45.

Breen, A.P. and Murphy, J.A. (1995) Reactions of oxyl radicals with DNA, Free Rad. Biol. Med. 18:1033-1077.

Brenner, D.J. (1994) The significance of dose rate in assessing the hazards of domestic radon exposure, Health Phys. 67, 76-79.

Brenner, D.J., Little, J.B. and Sachs, R.K. (2001) The bystander effect in radiation oncogenesis: II. A quantitative model. Radiation Research 155, 402-8.

Brent, R.L. (1983) The effects of embryonic and fetal exposure to X-ray, microwaves and ultrasound, Clin. Obstet. Gynecol. 52:553-556.

Breslow, N.E. and Day, N.E. (1980) The analysis of case-control studies, Statistical Methods in Cancer Research Vol. 1 IARC Scientific Publication No.32 tech. ed. W Davis (Lyon: IARC).

Breslow, N.E. and Day, N.E. (1984) Statistics of case-control studies Statistical Methods for Cancer Studies, edited by Cornell, R.G. (Marcel Dekker, New York).

Breyer, S. (1993) Breaking the vicious circle : towards effective risk regulation, Harvard University Press (Cambridge, Mass. USA).

Brien, R.L. and Parker, J.W. (1976) Oxidation-induced lymphocyte transformation - Cell 7: 13-20.

Brodsky, A. (1996) Review of radiation risks and uranium toxicity with application to decisions associated with decomissioning clean-up criteria, RSA Publications, ISBN-0-9630191-2-0, Hebron, CT.

Brodway, J.A. (1988) Estimates of radiation dose and health risks to the U.S. population following the Chernobyl Nuclear Plant accident, Health Phys. 55:533-535.

Brooks, A. and Frazier, M. (1993) Understanding the relationships: Dose- response: A Review of the Latest Evidence for Radon Risk Overestimation and Underestimation,. In: Radon Research Notes. Oak Ridge Nat. Lab.,.

Bross, I.D. and Driscoll, D.L. (1981) Direct estimates of low-level radiation risks of lung cancer at two NRC-compliant nuclear institutions: why are the new risk estimates 20 to 200 times the old official estimates? Yale J. Biol. Med, 54, p317.

Bross, I.D., Bell, M. and Falen, S. (1979) A dose response curve for the one rad range: adult risks from diagnostic radiation, Am. J. Public Health, 69, p130.

Brown, S. O. (1964) Effects of continuous low intensity radiation on successive generations of the albino rat, Genetics, 50, 1101.

Brown, S.O., Krise, G.M. and Pace, H.B. (1963) Continuous low-dose radiation effects on successive litters of the albino rat,. Radiat. Res. 19, 270-276.

Brown, S.O., Krise, G.M., Page, H.B. and deBoer, J. (1964) Effect of continuous radiation on reproductive capacity and fertility of the albino rat and mouse, In: Effects of Ionizing Radiation on the Reproductive System, Carlson, W.D. and Gassner, F.X., Eds., Pergamon Press, New York, 64, 103.

Brown, W.L and McDowell, A.A. (1962) Some effects of radiation on psychologic processes in rhesus monkeys, In: Response of the Nervous System to Ionizing Radiation, Haley, T.J. and Snider, R.S., Eds., Academic Press, New York, 729, 115.

Brownlee, K.A. (1960) Statistical Theory and Methodology in Science and Engineering, Wiley, N.Y.C.

Brucer, M. (1989) Letter to the editor of Time magazine; quoted in Access to Energy 16(7) March 1989.

Brucer, M. (1990) A Chronology of Nuclear Medicine, Heritage Publications, St. Louis.

Brues, A.M. (1958) Critique of the linear theory of carcinogenesis, Science, 12S: 697-699.

Brues, A.M. (1959) Low Level Radiation, Am. Assoc. Advancement of Science, Washington.

Brues, A.M. and Sacher, G.A. (1952,1949) Analysis of mammalian radiation injury and lethality, In: The Basic Aspects of Radiation Effects on Living Systems, Nickson, J.J., Ed., John Wiley & Sons, New York; Cancer Res., 9, 545.

Bruls, W.A.G., Slaper, H., van der Leun, J.C. and Berrens, L. (1984) Transmission of human epidermis and stratum corneum as a function of thickness in the ultraviolet and visible wavelengths, Photochem Photobiol 40: 485-494.

Bruzzone, R. and Meda, P. (1988) The gap junction: A channel for multiple functions?, Eur. J. Clin. Invest. 18, 444-453.

Bruzzone, R., White, T.W. and Goodenough, D.A. (1996) The cellular internet-on-line with connexins, BioEssays, 18, 709-718.

Buetler, E. and Gezon, H.M. (1982) The effect of total body X-irradiation on the susceptibility of mice to infuenza A virus infection, J. Immunol., 68, 227.

Buglova, E.E., Kenigsberg, J.E. and Sergeeva, N.V. (1996) Cancer risk estimation in Belarussian children due to thyroid irradiation as a consequence of the Chernobyl Nuclear Accident, Health Phys. Vol. 71, 45-49.

Bukowski, J.A. and Lewis, R.J. (2000) Hormesis and health: a little of what you fancy may be good for you. South Med J 93, 371-4.

Buldakov, L.A. (1993) A method to reconstruct the radiation dose to thyroid from incorporated ¹³¹I, Med. Radiol. 6: 20-25.

Burbank, F. (1971) Patterns in Cancer Mortality in the U. S., National Cancer Institute, Monograph 33, Washington, D.C.

Burk, K.B., Liu, E.T. and Larrick, J.W. (1988) Oncogenes, Springer-Verlag, New York.

Burkard, W., Grosclie, B. and Schoetzau, A. (1997) Down syndrome clusters in Germany after the Chernobyl Accident, Rad. Res., 147:321-328.

Burkhardt, J.K., Hester, S., Lapham, C.Y. and Argon, Y, (1990) The lytic granules of NK cells are dual-function organelles combining secretory and pre-lysosomal compartments, J. Cell. Biol; 111: 2327-2340.

Burrows, W., Deupree, N.G. and Moore, D.E. (1950) The effect of X-irradiation on fecal and urinary antibody response, J. Infect. Dis., 87, 158 and 169.

Bustad, L.K., Gates, N.M., Ross, A. and Carlson, L.D. (1965) Effects of prolonged low-level irradiation of mice,. Radiat. Res. 25, 318-330.

Butler, E.G. (1936) The effect of radium and X-rays on embryonic development, In: Biological Effects of Radiation, Dugger, B. M., Ed., McGraw-Hill. New York, 1936.

Buzzati-Traverso, A.A., Ed. (1960) Immediate and Low Level Effects of Ionizing Radiation, Taylor and Francis, London, by low dose total body irradiation in mice, In: Low Doses of Ionizing Radiation: Biological Effects and Regulatory Control, IAEA-TECDOC-976, IAEA-CN-67/132, 424-427.

Caggana, M, Liber, H.L., Coleman, C.N., Mauch, P., Clark, J.R. and Kelsey, K.T. (1992) A prospective study of HPRT mutant and mutation frequencies in treated cancer patients, Cancer Epidemiol. Biomarkers Prey; 1: 573-80.

Cahill, D.F. and Yuile, C.L. (1969) Some effects of tritiated water on mammalian fetal development, In: Radiation Biology of the Fetal and Juvenile Mammal, Sikov, M.R. and Muhlum, D.D., Eds., U.S. Atomic Energy Commission, Oak Ridge 283.

Cahill, D.F., Wright, J.F., Godbold, J.H., Ward, J.M., Laskey, J.W. and Tompkins, E.A. (1975) Neoplastic and life-span effects of chronic exposure to tritium. I. Effects on adult rats exposed during pregnancy. J Natl Cancer Inst 55, 371-4.

Cahill, D.F., Wright, J.F., Godbold, J.H., Ward, J.M., Laskey, J.W. and Tompkins, E.A. (1975) Neoplastic and life-span effects of chronic exposure to tritium. II. Rats exposed in utero, J. Natl. Cancer Inst. 1975 Nov.;55(5): 1165-9.

Cai, L. and Liu, S.Z. (1990) Induction of cytogenic adaptive response of somatic and germ cells in vivo and in vitro by low dose X-irradiation, Int. J. Radiat. Biol. 58:187-194.

Cai, L. and Liu, S.Z. (1992) Study on the mechanism of cytogenetic adaptive response induced by low dose radiation. Chin Med J (Engl) 105, 277-83.

Cai, L. and Wang, P. (1995) Induction of a Cytogenetic Adaptive Response in Germ-Cells of Irradiated Mice with Very Low-Dose Rate of Chronic Gamma- Irradiation and Its Biological Influence on Radiation-Induced DNA or Chromosomal Damage and Cell-Killing in Their Male Offspring. Mutagenesis 10, 95-100.

Cai, L., Jiang, J., Wang, B., Yao, H. and Wang, X. (1993) Induction of an adaptive response to dominant lethality and to chromosome damage of mouse germ cells by low dose radiation, Mutat. Res. 303: 157-161.

Cai, L., Liu, S-Z. (1990) Induction of cytogenetic adaptive response of somatic and germ cells in vivo and in vitro by low-dose X-irradiation, Int. J. Radiat. Biol. 58: 187-194.

Cakmak, A., Shidnia, H., Hornback, N.B. and Einhorn, L. (1978) Total-body irradiation with 25-MV photons in advanced non-Hodgkin's lymphoma and chronic lymphocytic leukemia. Preliminary results and complications. Radiology 128, 503-5.

Calabrese, E.J. (1996) Expanding the reference dose concept to incorporate and optimize beneficial effects while preventing toxic responses from nonessential toxicants. Regulatory Toxicology and Pharmacology 24, S68-S75.

Calabrese, E.J. (1999) Evidence that hormesis represents an "overcompensation" response to a disruption in homeostasis. Ecotoxicology and Environmental Safety 42, 135-137.

Calabrese, E.J. (1999) Hormesis: a highly generalizable and reproducible phenomenon with important implications for risk assessment,. Risk Anal. 19, 261-81.

Calabrese, E.J. (2000) Societal implications of hormesis. Journal of Applied Toxicology 20, 91-91.

Calabrese, E.J. (2001) 5-Hydroxytryptamine (serotonin): biphasic dose responses. Crit Rev Toxicol 31, 553-61.

Calabrese, E.J. (2001) Adenosine: biphasic dose responses. Crit Rev Toxicol 31, 539-51.

Calabrese, E.J. (2001) Adrenergic receptors: biphasic dose responses. Crit Rev Toxicol 31, 523-38.

Calabrese, E.J. (2001) Apoptosis: biphasic dose responses. Crit Rev Toxicol 31, 607-13.

Calabrese, E.J. (2001) Cell migration/chemotaxis: biphasic dose responses. Crit Rev Toxicol 31, 615-24.

Calabrese, E.J. (2001) Dopamine: biphasic dose responses. Crit Rev Toxicol 31, 563-83.

Calabrese, E.J. (2001) Estrogen and related compounds: biphasic dose responses. Crit Rev Toxicol 31, 503-15.

Calabrese, E.J. (2001) Nitric oxide: biphasic dose responses. Crit Rev Toxicol 31, 489-501.

Calabrese, E.J. (2001) Opiates: biphasic dose responses. Crit Rev Toxicol 31, 585-604.

Calabrese, E.J. (2001) Overcompensation stimulation: A mechanism for hormetic effects. Critical Reviews in Toxicology 31, 425-470.

Calabrese, E.J. (2001) Prostaglandins: biphasic dose responses. Crit Rev Toxicol 31, 475-87.

Calabrese, E.J. (2001) The future of hormesis: where do we go from here? Crit Rev Toxicol 31, 637-48.

Calabrese, E.J. and Baldwin, L.A. (1997) A quantitatively-based methodology for the evaluation of chemical hormesis. Human and Ecological Risk Assessment 3, 545-554.

Calabrese, E.J. and Baldwin, L.A. (1997) The dose determines the stimulation (and poison): Development of a chemical hormesis database. International Journal of Toxicology 16, 545-559.

Calabrese, E.J. and Baldwin, L.A. (1998) Can the concept of hormesis be generalized to carcinogenesis? Regulatory Toxicology and Pharmacology 28, 230-241.

Calabrese, E.J. and Baldwin, L.A. (1998) Hormesis as a biological hypothesis. Environmental Health Perspectives 106, 357-62.

Calabrese, E.J. and Baldwin, L.A. (1998a) Hormesis as a default parameter in RED derivation, BELLE Newsletter 7(1): 1-13.

Calabrese, E.J. and Baldwin, L.A. (1998b) Chemical Hormesis: Scientific Foundations, College Station (TX): Texas Institute for Advancement of Chemical Technology.

Calabrese, E.J. and Baldwin, L.A. (1999) Implementing hormetic effects in the risk assessment process: Differentiating beneficial and adverse hormetic effects in the RfD derivation process. Human and Ecological Risk Assessment 5, 965-971.

Calabrese, E.J. and Baldwin, L.A. (1999) Reevaluation of the fundamental dose-response relationship - A new database suggests that the U-shaped, rather than the sigmoidal, curve predominates. Bioscience 49, 725-732.

Calabrese, E.J. and Baldwin, L.A. (1999) The marginalization of hormesis. Toxicologic Pathology 27, 187-194.

Calabrese, E.J. and Baldwin, L.A. (2000) Chemical hormesis: its historical foundations as a biological hypothesis. Human & Experimental Toxicology 19, 2-31.

Calabrese, E.J. and Baldwin, L.A. (2000) The effects of gamma rays on longevity. Biogerontology 1, 309-319.

Calabrese, E.J. and Baldwin, L.A. (2001) Agonist concentration gradients as a generalizable regulatory implementation strategy. Crit Rev Toxicol 31, 471-3.

Calabrese, E.J. and Baldwin, L.A. (2001) Harmonization of cancer and noncancer risk assessment summarized the proceedings of a consensus-building workshop. Toxicol Sci 63, 149.

Calabrese, E.J. and Baldwin, L.A. (2001) Hormesis: a generalizable and unifying hypothesis. Crit Rev Toxicol 31, 353-424.

Calabrese, E.J. and Baldwin, L.A. (2001) Hormesis: A generalizable and unifying hypothesis. Critical Reviews in Toxicology 31, 353-424.

Calabrese, E.J. and Baldwin, L.A. (2001) Hormesis: a generalizable and unifying hypothesis. Crit Rev Toxicol 31, 353-424.

Calabrese, E.J. and Baldwin, L.A. (2001) Hormesis: U-shaped dose responses and their centrality in toxicology. Trends Pharmacol Sci 22, 285-91.

Calabrese, E.J. and Baldwin, L.A. (2001) The frequency of U-shaped dose responses in the toxicological literature. Toxicological Sciences 62, 330-338.

Calabrese, E.J. and Baldwin, L.A. (2001) U-shaped dose-responses in biology, toxicology, and public health. Annu Rev Public Health 22, 15-33.

Calabrese, E.J., Baldwin, L.A. and Holland, C.D. (1999) Hormesis: a highly generalizable and reproducible phenomenon with important implications for risk assessment. Risk Anal 19, 261-81.

Calabrese, E.J., Ed. (1992) Biological effects of low level exposures to chemicals and radiation, Lewis Publishers, Chelsea, MI.

Calabrese, E.J., Ed. (1994) Biological effects of low level exposures: dose response relationships, Boca Raton, FL: Lewis Publishers.

Calabrese, E.J., McCarthy, M.E. and Kenyon, E. (1987) The occurrence of chemically induced hormesis, Health Phys. 52:531-541.

Caldecott, K.W., Tucker, J.D. and Thompson, L.H. (1992) Overcorrection of the CHO EM9 DNA repair mutant by overexpression of a human XRCCI minigene, Nucl. Acid Res. 20:4575.

Caldwell, G.G., Kelley, D.B. and Heath C.W. Jr. (1980) Leukemia among participants in military maneuvers at a nuclear bomb test: a preliminary report. JAMA 244:1575-1578.

Calkins, J. (1967) An unusual form of response in X-irradiated protozoa and a hypothesis as to its origin, Int. J. Radiat. Biol. 12, 297-301.

Cameron, J. (1992) The good news about low level radiation exposure: Health effects of low level radiation in shipyard workers, Health Phys. Soc. Newsletter 20:9.

Cameron, J. (1994) What does the nuclear shipyard worker tell us,. In: ANS Trans,, Vol. 71, p. 36.

Cancer Registration: Principles and Methods (1991) Lyon, p126-158.

Caney, C., Bulmer, J.T., Singh, G., Lukka, H. and Rainbow, A.J. (1999) Pre-exposure of human squamous carcinoma cells to low-doses of gamma-rays leads to an increased resistance to subsequent, low-dose cisplatin treatment,. Int J Radiat Biol., 75,