References
- Anonymous. Nickel: Report of the Committee on Medical and Biologic Effects of Environmental Pollutants. National Academy of Sciences Publishing Office, Washington, DC 1975; 144–190
- Anonymous. Nickel and nickel compounds. IARC Monographs on the Evaluation of Carcinogenic Risk of Chemicals to Man. International Agency for Research on Cancer, Lyon 1976; Vol 11: 75–112
- Anonymous. Criteria for a Recommended Standard: Occupational Exposure to Inorganic Nickel. National Institute for Occupational Safety and Health, Washington, DC 1977; 160–178
- Brown S S, Sunderman F W, Jr. Nickel Toxicology. Academic Press, London 1980; 11–62
- Furst A, Radding S B. An update on nickel carcinogenesis. Nickel in the Environment, J O Nriagu. John Wiley and Sons, New York 1980; 585–600
- Leonard A, Gerber G B, Jacquet P. Carcinogenicity, mutagenicity, and teratogenicity of nickel. Mutat Res 1981; 87: 1–15
- Raithel H-J, Schaller K H. Toxicity and carcinogenicity of nickel and its compounds: A review of the current status. Zbl Bakt Hyg I Abt Orig B 1981; 173: 63–91
- Sunderman F W, Jr. Recent research on nickel carcinogenesis. Environ Health Persp 1981; 40: 131–141
- Sunderman F W, Jr. Organ and species specificity in nickel subsulfide carcinogenesis. Organ and Species Specificity in Chemical Carcinogenesis, R Langenback, S Nesnow, J M Rice. Plenum Press, New York 1983; 107–126
- Gurley L R, Tobey R A, Valdez J G, et al. Potential biological hazards of nickel arsenides associated with retorting of oil shale: Toxic effects of particulate Ni5As2. Report No. LA-8995-MS, Los Alamos National Laboratory, National Technical Information Service, Springfield, VA 1981; 1–24
- Ottolenghi A D, Haseman J K, Payne W W, et al. Inhalation studies of nickel sulfide in pulmonary carcinogenesis of rats. J Natl Cancer Inst 1975; 54: 1165–1172
- Sunderman F W, Jr, Taubman S B, Allpass P R. Comparisons of the carcinogenicities of nickel compounds following intramuscular administration to rats. Ann Clin Lab Sci 1979; 9: 441
- Sunderman F W, Jr. Carcinogenicity and anticarcinogenicity of metal compounds. Environmental Carcinogenesis, P Emmelot, E Kriek. Elsevier/North Holland Biomedical Press, Amsterdam 1979; 165–192
- Costa M., Nye J S, Sunderman F W, Jr, et al. Induction of sarcomas in nude mice by implantation of Syrian hamster fetal cells exposed in vitro to nickel subsulfide. Cancer Res 1979; 39: 3591–3597
- Costa M., Abbracchio M P, Simmons-Hansen J. Factors influencing the phagocytosis, neoplastic transformation, and cytotoxicity of particulate nickel compounds in tissue culture systems. Toxicol Appl Pharmacol 1981; 60: 313–323
- Sunderman F W, Jr, Maenza R M. Comparisons of carcinogenicities of nickel compounds in rats. Res Commun Chem Pathol Pharmacol 1976; 14: 319–330
- Sunderman F W, Jr, Kasprzak K S., Lau T J, et al. Effects of manganese on carcinogenicity and metabolism of nickel subsulfide. Cancer Res 1976; 36: 1790–1800
- Gilman J PW. Metal carcinogenesis II A study of the carcinogenic activity of cobalt, copper, iron, and nickel compounds. Cancer Res 1962; 22: 158–165
- Kasprzak K S, Sunderman F W, Jr. Mechanisms of dissolution of nickel subsulfide in rat serum. Res Commun Chem Pathol Pharmacol 1977; 16: 95–108
- Stout A P, Lattes R. Tumors of the soft tissues. Atlas of Tumor Pathology. Series 2, American Registry of Pathology, Washington, DC 1967; 1–197, Fascicle 1
- Sokol R R, Rohlf F J. Biometry: The Principles and Practice of Statistics in Biological Research. WH Freeman Co, San Francisco 1981; 429–445, and 731-747
- Jacobs B B, Huseby R A. Neoplasms occurring in aged Fischer rats, with special reference to testicular, uterine, and thyroid tumors. J Natl Cancer Inst 1967; 39: 303–309
- Haseman J K. Patterns of tumor incidence in two-year cancer bioassay feeding studies in Fischer 344 rats. Fund Appl Toxicol 1983; 3: 1–9
- Saether O M, Runnels D D, Meglen R R. Trace elements in rich oil shales of the mahagony zone, concentrated by differential density centrifugation. Trace Elements in Oil Shale, Center for Environmental Sciences. Report COO-10298-1, University of Colorado, Boulder 1980; 237–255
- Wildeman T R, Laffoon A M, Dahlin D, et al. Chemical analysis of inputs and outputs of oil shale retorts. Trace Elements in Oil Shale. Center for Environmental Sciences. Report COO-10298-1, University of Colorado, Boulder, Boulder 1980; 113–175
- Fruchter J S, Wilkerson C L, Evans J C, et al. Source characterization studies at the Paraho Semiworks Oil Shale Retort. Report PNL-2945/UC-91, Pacific Northwest Laboratories, National Technical Information Service, Springfield, VA 1979; 1–70
- Gaechter A, Alroy J, Andersson G BJ, et al. Metal carcinogenesis: A study of the carcinogenic activity of solid metal alloys in rats. J Bone Joint Surg 1977; 59A: 622–624
- Stanton M F, Layard M. The carcinogenicity of fibrous minerals. Proceedings of Workshop on Asbestos: Definitions and Measurements Methods, C C Gravatt, P D LaFleur, K FJ Heinrich. US National Bureau of Standards Special Publ, Gaithersburg, MD 1976; 143–151, No 506
- Kuehn K, Sunderman F W, Jr. Dissolution half-times of nickel compounds in water, rat serum and renal cytosol. J Inorg Biochem 1982; 17: 29–39
- Kuehn K., Fraser C B, Sunderman F W, Jr. Phagocytosis of particulate nickel compounds by rat peritoneal macrophages in vitro. Carcinogenesis 1982; 3: 321–326
- Sunderman F W, Jr, Hopfer S M. Correlation between the carcinogenic activities of nickel compounds and their potencies for stimulating erythropoiesis in rats. Biological Aspects of Metals and Metal-Related Diseases, B Sarkar. Raven Press, New York 1983; 171–181