Chrom metaliczny i związki chromu (III) : dokumentacja proponowanych wartości dopuszczalnych poziomów narażenia zawodowego

Chmielnicka, J.; Matczak, W.

Artykuł - szczegóły

Tytuł artykułu

Chrom metaliczny i związki chromu (III) : dokumentacja proponowanych wartości dopuszczalnych poziomów narażenia zawodowego

Autorzy

Chmielnicka J. , Matczak W.

Wybrane pełne teksty z tego czasopisma

www.ciop.pl/pimosp_teksty

Identyfikatory

Warianty tytułu

Chromium metal and chromium (III) compounds

Języki publikacji

Abstrakty

Chrom metaliczny jest metalem srebrzystoszarym, rozpuszczalnym w rozcieńczonym kwasie solnym i siarkowym, a nierozpuszczalnym w wodzie, kwasie azotowym i wodzie królewskiej; ma własności amfoteryczne. Podstawowym surowcem do produkcji chromu jest ruda chrornitowa. Światowe wydobycie rud chromu w 1985 r. osiągnęło poziom 11 min ton. Głównym pośrednim produktem metalurgii chromu jest żelazochrom. Największymi producentami żelazochromu w 1987 r. były: Płd. Afryka - 948 tyś. ton i Japonia - 291 tyś. ton; w USA produkcja żelazochromu (FeSiCr), chromu metalicznego i różnych innych stopów chromu wynosiła 106,7 tyś. ton. W przemyśle metalurgicznym chromu około 60% produktów stanowił wysokowęglowy żelazochrom, 11% niskowęglowy, 21% żelazochrom-krzemiany, a 1% inne stopy i chrom metaliczny. Narażenie zawodowe na chrom metaliczny i związki chromu (111), a także towarzyszące im związki chromu (VI) występuje głównie podczas przetwórstwa rudy chromitowej, tj. w przemyśle metalurgicznym, chemicznym (produkcja i stosowanie pigmentów), materiałów ogniotrwałych oraz w takich procesach przemysłowych, jak garbowanie skór, spawanie stali i procesy pokrewne. Ustalono, że w Polsce przetwórstwo rudy chromitowej występuje w 7 zakładach, w kontakcie z rudą pracuje 215 + 230 osób, natomiast liczba spawaczy wysokostopowych stali chromowo-niklowych wynosi ok. 14 tysięcy. Interpretacja danych dotyczących efektów toksycznych obserwowanych wśród pracowników eksponowanych na chrom i związki chromu (III) jest utrudniona i dyskusyjna ze względu na współwystępowanie w Środowisku pracy również innych związków. Drogami wchłaniania związków chromu są układ oddechowy, pokarmowy i skóra. Układem krytycznym w przypadku inhalacyjnej ekspozycji zawodowej jest układ oddechowy. Chrom w stanie metalicznym jest biologicznie nieczynny i względnie nietoksyczny podobnie jak związki chromu (III), co jest związane z małym wchłanianiem tego związku przez skórę i błony komórkowe. Chrom (III) wykazuje minimalne działanie drażniące i możliwe działanie uczulające. Prawdopodobnie nie wykazuje działania mutagennego. Nie ma wystarczających danych wskazujących na kancerogenne działanie chromu metalicznego i związków chromu (III) u ludzi i zwierząt, nie są one klasyfikowane pod względem działania kancerogennego u ludzi (Grupa 3 IARC). Na podstawie wyników badań pracowników fabryki produkującej związki Cr III (tlenek i siarczan) nie wykazano u nich zmian w układzie oddechowym i hematologicznym (wartość NOAEL 1,99 mg Cr w l m3). U pracowników zatrudnionych przy produkcji stali stopowych, eksponowanych na chrom metaliczny i związki (III) średnio przez 7 lat (od l do 32 lat), nie obserwowano efektów toksycznych związanych z uszkodzeniem nerek (NOAEL 0,61 mg/m ). W wynikach badań toksyczności podprzewlekłej u królików narażonych na azotan chromu obserwowano obniżenie aktywności makrofagów i osłabienie funkcji płuc (wartość LOAEL 0,6 mg Cr III/m3). Natomiast u szczurów otrzymujących w paszy tlenek chromu nie obserwowano zmian w układzie oddechowym, krwiotwórczym oraz w sercu, żołądku, nerce i wątrobie w wyniku podprzewlekłego (wartość NOAEL 1806 mg Cr 111/kg/dzień) i przewlekłego narażenia (NOAEL 2040 mg Cr III/kg/dzień). W Polsce nic ustalono dotychczas najwyższego dopuszczalnego stężenia chromu metalicznego i związków chromu (III) w powietrzu na stanowiskach pracy. Na podstawie wyliczeń oszacowano wartość NDS chromu metalicznego i związków chromu (III) na poziomie 0,1 - 1,8 mg/m3. Zaproponowano przyjęcie wartości NDS na poziomie 0,5 mg/m3, tj. zgodnej z wartością NDS obowiązującą w innych państwach.

Chromium can have different oxidation states (valences) ranging from 2 to +6; however, only the free metal (oxidation stale = 0), chromie salts (+3), and chromate salts (-t-6) arę in common use. Chromite ore is the naturally occurring form of chromium. It contains various compounds of Cr(+3) along with iron, aluminium, and magnesium compounds. Chromium metal is identified as an A4 carcinogen, not classifiable as a human carcinogen. In the form of trivalent compounds, chromium is an essential nutrient and is relatiely non-toxic for humans and other mammalian species. IARC classified chromium metal and trivalent chromium compounds to group 3: not classifiable as to their carcinogenicty to humans. The background for setting MAC value is the data frorn occupational exposure. No effects on the respiratory and haematological systems were found in workers exposed to 1.99 mg Cr/m' (NOAEL). Accordingly, the MAC value of 0.5 mg/m3 is recommended for chromium and its compound (III). At this time, no MAC-STEL is recommended.

Słowa kluczowe

chrom metaliczny związki chromu narażenie zawodowe działanie drażniące

chromium metal chromium compounds occupational exposure irritation

Wydawca

Centralny Instytut Ochrony Pracy - Państwowy Instytut Badawczy

Czasopismo

Podstawy i Metody Oceny Środowiska Pracy

Rocznik

2000

Tom

Nr 1 (23)

Strony

57--100

Opis fizyczny

Bibliogr. 168 poz., rys., tab.

Twórcy

autor

Chmielnicka J.

Instytut Medycyny Pracy im. prof. dr, med. Jerzego Nofera 90-950 Łódź ul św. Teresy 8

autor

Matczak W.

Instytut Medycyny Pracy im. prof. dr, med. Jerzego Nofera 90-950 Łódź ul św. Teresy 8

Bibliografia

1. Aitio A. i in.: Chromium. W: Biological Monitoring of Toxic Metals. New York, Plenum 1988, pp 369-382.
2. Aitio A. i in.: Urinary excretion of chromium as an indicator of exposure to trivalent chromium sulphate in leather tanning. Int. Arch. Occup. Environ. Health. 1984, 54: 24 1-249.
3. Air contaminants final rule. Department of Labor. Occupational Safety and Health Administration. Federal Register 1989, 54, 2930.
4. Anderson R.A. i in.: Effects of chromium supplementation on urinary Cr excretion of human subjects and correlation of Cr excretion with selected clinical parameters. J. Nutr. 1883, 113: 276-281.
5. Anke M. i in.: Absorption, excretion and distribution of 51 chromium given by mouth to lactating ruminants, Arch. Tierernähr, 1971, 21, 599-67.
6. Axelsson G., Rylander R., Schmidt A.: Mortality and incidence of tumors among ferrochromium workers. Br. J. Ind. Med. 1980, 37, 121-127.
7. Baetjer A.M., Damron C., Budacz V.: The distribution and retention of chromium in men and animals. Arch. Ind. Health. 1959, 20: 136-150.
8. Baetjer A.M.: Pulmonary carcinoma in chromate workers I Incidence and basis of hospital records. Arch. Ind. Hyg. Occup. Med. 1950b, 2: 505-5 16.
9. Beaumont J.J., Weiss N.S.: Lung cancer amoung welders. J. Occup. Med. 1981, 23, 839-844.
10. Becker N., Claude J., Frentzel-Beyme R.: Cancer risk of arc welders exposed to fumes containing chromium and nickel. Scand. J. Work Environ Health, 1985, 11, 75-82.
11. Belitskaja E.N.: Physiologic and hygienic characterization of working conditions for steel smelters in open-hearth process (Russ). Gig. Tr. 1981, 24, 9-11.
12. Biologic markers in reproductive toxicology. NAS/NRC, National Academy Press 1989, 15-35.
13. Bragt P.C., van Dura E.A.: Toxicokinetics of hexavalent chromium in the rat after intratracheal administration of chromates of different solubilities. Ann. Occup. Hyg. 1983, 27: 3 15-322.
14. Brayer E.R., Infante P., Chu K.: An analysis of lung cancer risk from exposure to hexavalent chromium. Teratogen Carcinogen Mutagen 1985, 5: 365-378.
15. Brune D., Nordberg G., Wester P.O.: Distribution of 23 elements in the kidney, liver and lungs of workers from a smeltery and refinery in north Sweden exposed to a number of elements and of a control group. Sci. Total Environ, 1980, 16, 13-35.
16. Carcinogenicity of chromium compounds. Chromium in the natural and human environments. Jerome O. Nriagu, E. Nieboer [red.] John Wiley & Sons. Inc 1988.
17. Cavalleri A., Minoia C.: [Distribution in serum and erythrocytes and urinary elimination in workers exposed to chromium (VI) and chromium (III)] G. Ital. Med. Lav. 1985, 7: 35-38.
18. Chen J., Tsai A., Dyer J.: Effect of chelating agents on chromium absorption in rats. J. Nutr. 1973, 103: 1182-1186.
19. Chromium. National Research Council. Washington DC, National Academy of Sciences 1974.
20. Chromium. Environmental Health Criteria 61. International Programme on Chemical Safety. WHO, Geneva, 1988.
21. Cirla A.M. i in.: Manifestazioni respiratori alergische da inalazione di fumi di salatura di acciaio inossidabile. Lav. Um. 1982, 30, 17-20.
22. Clarkson T. W., Nordberg G.F, Sager P.R.: Reproductive and developmental toxicity of metals. Scand J. Work Environ. Health 1985, 11,145-154.
23. Coogan T.P. i in.: Discribution of chromium within cells of the blood. Toxicol. Appl. Pharmacol. 1991b: 108: 157-166.
24. Criteria for the recomended standard. Occupational exposure to chromium VI. yS Department of Health Education and Welfare. NIOSH. Washington DC, 1975.
25. Cupo D.Y., Wetterhahn K.E.: Binding of chromium to chromatin and DNA from liver and kidney of rats treated with sodium dichromate and chromium III chloride in vitro. Cancer Res. 1985, 45: 1146-1151.
26. Danielsson B.R.G., Hasoun E., Dencker L.: Embryotoxicity of chromium distribution in pregnant mice and effects on embryonic cells in vitro. Arch. Toxicol, 1982, 51, 233-245.
27. Davis J.M.G.: The fibrogenic effects of mineral dusts injected into the pleural cavity of mice. Br. J. Exp. Pathol. 1972, 53, 190-201.
28. Davis J.C.A.: Inhalation hazards in the manufacture of silicon alloys. Centr. Afr. J. Med. 1974, 20, 140-143.
29. De Flora S. i in.: Circadian reduction of chromium in the gastric enyironment. Mutat.Res. 1987a, 192: 169- 174.
30. De Flora S., Wetterhahn K.E: Mechanisms of chromium metabolism and genotoxicity. Life Chemistry Reports 1989, 7: 169-244.
31. Documentation. Chromium. Documentation revised. ACGiH Cincinnati, Ohio 1991.
32. Documentation. Chromium. ACGiH Cincinnati, Ohio 1986.
33. Doisy R.J. i in.: Effects and metabolism of chromium in normals, elderly subjects, and diabetics. In Hemphill DD. ed. Trace substances in environmental health. Columbia, Missouri 1968, 162, 75 pp.
34. Doisy R.J. i in.: Metabolism of 51 in human subjects. W: Mertz W., Cornatzer W.E. [red.] Newer trace elements in nutrition. New York, Marcel Dekker 1971, pp 155-169.
35. Domaseva T.V.: On the effect produced by chromium compounds on the skin. W: Occupational skin diseases. Leningrad, Leningrad Institute of Sanitation and Hygene 1971, Vol. 93, pp. 168-173.
36. Donaldson R.M., Barreras R.F: Intestinal absorption of trace quantities of chromium. J. Lab. Clin. Med. 1966, 68: 484-493.
37. Dvizhkov P.P., Fedorova V.J.: On blastomogenic properties of chromic oxide. Vop. Onkol. 1967, 13: 57-62.
38. Foa V. i in.: Effects derived from long-term lov-level chromium exposure in ferro-alloy metalurgy, study of absorption and renal function in workers. Sci. Total. Environ 1988, 71, 389-400.
39. Franchini J. i in.: Nephrotoxicity of chromium. Contrib. Nephrol. 1978, 10: 98-1 10.
40. Fregert S.. Manual of contact dermatitis. 2nd ed. Copenhagen, Munksgaard 1981, pp. 139.
41. Fregert S., Rorsman H.: Allergy to trivalent chromium. Arch. Dermatol 1964, 90: 4-6.
42. Furst A.: Trace elements related to specific chromic diseases: cancer. W: Environmental Geochemistry in Health and Disease. Cannon H.L., Hopps H.C. [ Boulder CO, Geological Socjety of America 1971, pp 109-130.
43. Glaser U. i in.: Carcinogenicity of sodium dichromate and chromium (VI/III) oxide aerosols inhaled by male Wistar rats. Toxicology 1986, 42: 2 19-232.
44. Glaser U., Hochrainer D., Oldiges H.: Investigations of the lung carcinogenic potentials of sodium dichromate and Cr VI/III oxide aerosols in Wistar rats. Environ. Hyg. 1988, 1: 111-116.
45. Grogan C.H.: Experimental studies in metal carcinogenesis. VIII: On the etiological factor in chromate cancer. Cancer 1957, 10, 625-638.
46. Gromiec J.P., Romanowicz B., Matczak W.: Narażenie na związki chromu przy przetwórstwie rudy chromitowej w Polsce. Med. Pracy 1989.
47. Gross P.R., Katz S.A., Samitz M.H.: Sensitization of guinea pigs to chromium salts. J. Invest. Deramtol. 1968, 50: 424-427.
48. Gylseth B., Gundersen N., Langard S: Evaluation of chromium exposure based on a simplified method for urinary chromium determination. Scand. J. Work Environ. Health. 1977, 3: 28-3 1.
49. Hamamy H.A., Al-Hakkak Z.S, Hussain A.F.: Chromosome aberrations in workers in a tannery in Iraq. Mutat. Res. 1987, 189: 395-398.
50. Handfield-Jones S., Boyle J., Harman N.R.M.: Contact allergy caused by metal sprays. Contact Dermatits 1987, 16: 44-45.
51. Hansen K., Stern R.M.: Welding fumes and chromium compounds in celi transformation assays. J. Appl. Toxicol 1985, 5, 306-3 14.
52. Hathaway G.]. i in.: Chemical hazards of the workplace. 3rd. Van Nostrand Reinhold Company, New York 1991, pp 178-181.
53. Hayes R.B., Lilienfeld A.M., Snell L.M.: Mortality in chromium chemical production workers: A prospective study. Int. J. Epidemiol. 1979, 8: 365-374.
54. Health of workers in chromate producing industry. A study. Washington, DC: Public Health Service Publication, 1953, no 192.
55. Henderson R.F. i in.: Early damage indicators in the Jung. III. Biochemical and cytological response of the lung to inhaled metal salts. Toxicol. Appl. Pharmacol. 1979, 50: 123-136.
56. Henning A. i in.: Absorption and distribution of 51 after oral administration to laying hans as a function of time. Arch. Tierernahr. 1971, 21, 609-615.
57. Hewitt P.]., Madden M.G.: Welding process parameters and hexavalent chromium in MIG fume. Ann. Occup. Hyg. 1986, 30, 427-434.
58. Hueper W.C.: Environmental carcinogenesis and cancers. Cancesr Res. 1961, 21, 842-857.
59. Hueper W.C.: Experimental studies in metal carcinogenesis. VII. Tissue reactions to paranterally introduced powdered metalic chromium and chromite are. J. Natl. Cancer Inst. 1955, 16, 447-462.
60. Hueper W.C., Payne W.W.: Experimental studies in metal carcinogenesis. Chromium, nickel, iron, arsenic. Arch. Environ. Health 1962, 5, 445-462.
61. Hyodo K i in.: An analysis of chromium, copper, and zinc in organs of a chromate worker. Int. Arch. Occup. Environ. Health 1980, 46: 141-150.
62. Jijima S i in.: Placental transfer of CrC1 and its effects on foetal growth and deyelopment in mice. Teratology 1975, 12, 198.
63. lndrichova J.: Chromschden bei Elektroschweissem. Z. Gesamte Hyg. 1978, 24, 86-88.
64. Ivankovjc S., Preussmann R.: Absence of toxic and carcinogenic effects after administration of high doses of chromic oxide pigment in subacute and long-term feeding experiments in rats. Food. Cosmet. Toxicol. 1975, 13: 347-35 1.
65. Iyengar V., Woittiez J.: Trace elements in human clinical specimens: evaluation of literature data to identify reference values. Clin. Chem. 1988, 34: 474-481.
66. Jansen L.H., Berrens L.: Sensitization and partial dsensitization of guinea pigs to trivalent and hexavalent chromium. Dermatologica 1968, 137: 65-73.
67. Johansson A.: Rabbit lung after inhalation of hexa- and trivalent chromium. Environ.Res. 1986a, 41: 110-1 19.
68. Johansson A. i in.: Rabbit alveolar macrophages after inhalation of hexa- and trivalent chromium. Environ. Res. 1986b, 39: 372-385.
69. Kaliomaki P.L. i in.: Kinetcs of the metal components of intratracheally instilled stainlees steel welding fume suspensions in rats. Br. J. Ind. Med. 1986, 43: 112-119.
70. Kaliomaki P.L. i in.: Retention and clearanca of stainless steel shield gas welding fumes in rat lungs. Am. Ind. Hyg. Assoc. J. 1983, 44, 649-654.
71. Keskinen H., Kalliomaki P.L., Alanko K.: Occupational asthma due to stainless steel welding fumes. Clin. Allerg. 1980, 10: 151-159.
72. Kiilunen M. i in.: Exceptional pharmacokinetics of trivalent chromium during occupational exposure to chromium lignosulfonate dust. Scand. J. Work. Environ. Health. 1983, 9: 265-27 1.
73. Kilburn K.H. i in.: Cross-shift and chronic effects of stainless-steel welding related to internal dosimetry of chromium and nickel. Am. J. Ind. Med. 1990, 17, 607-615.
74. Klein F.: Nickel and chromium concentrations in ambient air of work places in the iroon and steel industry (Fr). W: Progress in nickel toxicology. Brownss i Sunderman F.W.Jr. [red.] Oxford, Blackwell Scientific 1985, 195-197.
75. Kogan V.Y.: Chromium as a specific cause for occupation dermatoses. W: Babayants R.S, [red.] Topical questions of dermato-venerology. First Medical Institute, Ali - Union Conference. Moscow, I.A. Sechenor 1971, pp. 172-176.
76. Koponen M.: Applications of some instrumental methods in metal aerosol characterization. Original Reports 2/1985, University of Kuopio, Kuopio 1985.
77. Koponen M. i in.: Chromium and nickel aerosols in stainless steel manufacturing grunding and welding. Am. Ind. Hyg. Assoc. J. 1981, 42, 596-601.
78. Korallus U. i in.: Trivalent chromium compounds - results of a study in occupational medicine. Arb. Soz. Prey. 1974, 9: 5 1-54, 76-79, 248-252.
79. Koshi K: Effects of fume particles from stainless steel welding an sister chromatid exchanges and chromosome aberrations in cultured chinese hamster cells. Int. Health 1979, 17, 39-49.
80. Koshi K. i in.: Cytogenetic analysis of bone marrow cells and peripheral blood lymphacytes from rats exposed to chromium fumes by inhalation. Mutat. Res. 1987, 181: 365.
81. Kryteria zdrowotne środowiska. Chrom. T.61, IMP, Łódź 1992.
82. Kurokawa Y. i in.: Promoting effect of metal compounds on rat renal tumorigenesis. J. Am. CoIl. Toxicai 1985, 4; 321-330.
83. Langard S., Andersen A., Gylseth B.: Incidence of cancer amoung ferrochromium and ferrosilicon workers. Br. J. Ind. Med. 1980, 37: 114-120.
84. Langard S., Andersen A., Ravenstad I.: Incidence of cancer amoung ferrochromium and ferrosilicon workers. An extended observation period. Br. J. Ind. Med. 1990, 47, 14-19.
85. Laskin S., Kuschner M., Drew R.T.: Studies in pulmonary carcinogenesis. W: Hana M.G., Zir, Nettesheim P., Gilbert J.R. [red.] Inhalation Carcinogenesis (US Atomic Energy Commission Symposium Series No 18), Oak Ridge, TN, US Atomic Energy Commission, Division of Technical Information Ex tension, 1970, 321-351.
86. Lee K.P. i in.: Inhalation toxicity of chromium dioxide dust to rats after two years exposure. Sci. Total. Environ. 1989, 86: 83-108.
87. Levy L.S., Martin P.A., Bidstrup P.L.: Investigation of the potential carcinogenicity of a range of chromium containing materials on rat lung. Br. J. Ind. Med. 1986, 43: 243-256.
88. Levy L.S., Venit S.: Carcinogenicity and mutagenicity of chromium compounds: the association between bronchial metaplasia and neoplasia. Carcinogenesis 1986, 7: 83 1-836.
89. Littorin M. i in.: No cytogenetic effects in lymphocytes of stainless steel welders. Scand. J. Work Environ. Health 1983, 9, 259-264.
90. MacKenzie R.D. i in.: Chronic toxicity studies II. Hexavalent and trivalent chromium administered in drinking water to rats. Arch. Ind. Health, 1958, 18: 232-234.
91. Mamka E.: Wyprysk kontaktowy u hutników. Przegląd Dermatologiczny 1983, 70: 65-67.
92. Mali J.W., Malten K., Van Neer F.C.J.: Allergy to chromium. Arch. Dermatol. 1966, 93: 41-44.
93. Malmqvist K.G. i in.: Elemental concentrations in airborne particles from welding and metal spraying operations. Naci. Instr. Methods 1981, 181, 465-471.
94. Mancuso T.F., Hueper W.C.: Occupational cancer and other health hazards in a chromate plant: A medical appraisal. I. Lung cancers in chromate workers. Ind. Med. Surg. 1951, 20: 358-363.
95. Mancuso T.F.: Consideration of chromium as an industrial carcinogen. W: Hutchinson TC. Proceedings of the Internationa Conference on Heavy Metals in the Environment. Toronto Institute for Environmental Studies, Toronto, 1975, pp 343-356.
96. Mancuso T.F.: Occupational cancer and other health hazards in a chromate plant: A medical appraisal I Clinical and toxicologic aspects. Ind. Med. Surg. 1951, 20: 393-407.
97. Maruyama Y.: The health effect of mice given oral administration of trivalent and hexavalent chromium over a long-term. Acta Scholae Medicinalis Universitias in Gifu 1982, 31: 24-46.
98. Matczak W, Chmielnicka J.: Relation between various chromium compounds and some other elements in fumes from manual metal arc stainless steel welding. Br. J. Med. 50: 244-51, 1993.
99. Marczak W. Trzcinka-Ochocka M., Chmielnicka J.. Urinary excretion of chromium as an indicator of exposure to various chromium forms in MMA/SS welders. Int. J. Occup. Med. Environ. Health 8: 301-313, 1995.
100. Mertz W.: The newer essential trace elements, chromium, tin, vanadium, nickel and silicon. Proc. Nutr. Soc. 1974, 33: 307-131.
101. Mertz W., Rogiński E.E., Reba R.C.: Biological activity and fate of intra venous chromium (III in the vat. Am. J. Physiol. 1965, 209, 489-494.
102. Mertz W. i in.: Dependence of chromium transfer into the rat embryo on the chemical form. J. Nutr. 1969, 99, 363-367.
103. Minoia C., Cavalleri A.: Chromium in urine, serum and red blood ce in the biological monitoring of workers exposed to defferent chromium valency states. Sci. Total Environ. 1988, 71: 323-327.
104. Monographs on the evaluation of carcinogenic risk to humans chromium, nickel and welding. T.49. IARC, Lyon 1990.
105. Morning J.L.: Chromium. W: Minerals Yearbook 1976, Vol. 1 metals, Minerals and Fuels, Washington D.C, Bureau of Mines. US Government Printing Office, 1978 pp. 297-308.
106. Mukubo K.: Studies on experimental lung tumor by the chemical carcinogenes and inorganic substances. III. Histopathology studies on lung tumour in rats induced by petracheal vinyl tube infusion of 20-methylcholanthrene combined with chromium and nickel powders (Jpn.) I. Nara Med. Assoc. 1978, 29, 32 1-340.
107. Mutti A. i in.: Biological monitoring of occupational exposure to different chromium compounds at various valency ststes. Int. J. environ. anal. Chem. 1984, 17: 35-41..
108. Nieboer E. i in.: Effects of chromium compounds on human health. Ontario Ministry of Labour, Toronto, 1984.
109. Nriagu i in.: Chromium in the natural and human environments. New York, John Willey & Sons, 1988.
110. Papp J.F.: Chromium. W: 1987 Bureau of Mines Minerals Yearbook, Washington DC, Bureau of Mines. US Department of the Interior, 1988, pp. 1-17.
111. Pedersen B., Thomsen E., Stern R.M.. Some problems in sampling analysis and evaluation of welding fumes containing Cr VI. Ann. Occup. Hyg. 1987, 31, 325-338.
112. Pippard E.C., Acheson E.D., Winter P.D.: Mortality of tanners. Br. J. Ind. Med. 1985, 42: 285-287.
113. Pocket Guide (TM) Chromium metal. NIOSH, 1995, Vol. 24, Expires 4/30/95.
114. Pokrovskaya L.y., Shabynina N.K.: O kancerogennoi opasnosti na proizvodstvie chromovych ferrosplavov. Gig. Tr. Prof. Zabol. 1973, 10, 23-26.
115. Princi F. i in.: Pulmonary disease of ferroalloy workers. J. Occup. Med. 1962, 4, 301-310.
116. Randall J.A., Gibson R.S.: Serum and urine chromium as indices of chromium status in tannery workers. Proc. Soc. Exp. Biol. Med. 1987, 185: 16-23.
117. Recomendations for occupational safety and health. Compendium of policy document and statements. NIOSH, Cincinnati Ohio, 1992, 63-64.
118. Rudzki E., Kozlowska A., Rebandal P.: Rzadkie w Polsce przyczyny uczulenia na chrom. Przegl. Dermatol. 1981, 68, 56 1-563.
119. Samitz M.H.: Ascorbic acid in the prevention and treatment of toxic effects from chromates. Acta Determatovener 1970, 50: 59-64.
120. Samitz M.H., Epstein E.: Experimental cutaneous chrome ulcers in guinea pigs. Arch. Environ. Health 1962, 5: 463-468.
121. Samitz M.H., Schrager J.: Patch test reactions to hexavalent and trivalent chromium compounds. Arch. Dermatol. 1966, 94: 304-306.
122. Sanders C. J. i in.: Distribution of inhaled metal oxide particles in pulmonary alvesi. Arch. Intern. Med 1971, 127: 1085-1089.
123. Sawatari K., Serita F.: Determination of chromium speciation in fumes prepared by a plasma metal sprayer as a model of actual welding fumes. Ind. Health 1986, 24, 5 1-61.
124. Sax J.R., Lewis R.J.Sr.: Hawley’s Condensed Chemical Dictionary. 11 ed. New York, Van Nostrand-Reinhold 1987, pp. 66, 118, 278-281, 953-954, 1057-1058, 1098.
125. Schroeder H.A., Balassa J.J., Vinton W. H., Jr.: Chromium, cadmium and lead in rats: Effects on life span, tumors and tissue levels. J. Nutr. 1965, 86: 51-66.
126. Schroeder H.A., Balassa J.J., Vintion W. H., Jr.: Chromium, lead, cadmium, nickel and titanium in mice: effect on mortality, tumors and tissue levels. J. Natur. 1964, 83: 239-250.
127. Shimkin M.B., Leiter J.: Induced pulmonary tumors in mice. III. The role of chronic irritation in the production of pulmonary tumors in strain a mice. J. Natl. Cancer Inst., 1940, 1: 241-254.
128. Shimkin M.B., Stoner G.D., Theiss .J.C.: Lung tumor response in mice to metals and metal salts. Adv. Exp. Med. Biol., 1977, 91: 85-91.
129. Sjogren B.: A retrospective cohort study of mortality among stainless steel welders. Scand. J. Work Environ Health 1980, 6, 197-200.
130. Sjogren B., Gustavsson A., Hedstrom L.: Mortality in two cohorts of welders exposed to high-and low-levels of hexavalent chromium. Scand. J. Work Environ. Health 1987, 13: 247-251.
131. Sluis-Cremer G.K, du Toit S.J.: Pneumoconiosis in chromite miners in South Africa. Br. J. Ind. Med. 1968, 25: 63-67.
132. Śmitova L.A.: Soderżanie szestivalentnogo chroma v biologiczeskich substratach beremennych i rodilnic, zanjatych v proizvodstve chromovych soedinji. Gig. Tr. Prof. Zabol. 1980, 2, 33-35.
133. Smyth H.F. i in.: Range finding toxicity data: List VII. Am. Ind. Hyg. Assoc.J. 1969, 30: 470-476.
134. Spruit D., Neer F. C. van: Penetration race of Cr (III and Cr (VI). Dermatologica 1966, 132(2): 179-182.
135. Stern R.M.: Chromium compounds: production and occupational exposure. W: Langard S. [red.] Biological and environmental aspects of chromium. Amsterdam, Elsevier 1982, pp 5-47.
136. Stern R.M., Thomsen E., Furst A.: Cr VI and other metallic mutagenes in fly ash and welding fumes. Toxicol. Environ. Chem. 1984, 8, 95-108.
137. Stern R.M. i in. [red.] Health hazards and biological effects of welding fumes and gases. Proceedings of the International Conference, Copenhagen 18-21 February 1985, Excerpta Medica, Amsterdam 1986.
138. Stern F.B. i in.: Mortality of chrome leather tannery workers and chemical exposures in tanneries. Scand. J. Work. Environ. Health 1987, 13: 108-117.
139. Stoner G.D. i in.: Test for carcinogenicity of metallic compounds by the pulmonary tumor response in strain A mice. Cancer Res. 1976, 36: 1744-1747.
140. Substancje rakotwórcze w środowisku pracy. Chrom i niektóre związki chromu. IMP, Łódź, 1987.
141. Sullivan M.F., Miller B.M., Goebel J.C.. Gastrointestinal absorption of metals ( 65 9 109 3 47 and 238 by rats and swine. Environ. Res. 1984, 35: 439-453.
142. Sunderman F.W.Jr., Lnu T.J., Cralley L.J.: Inhibitory effect of manganese upon muscle tumorigenesis by nickel subsulfide. Cancer Res. 1974, 34, 92-95.
143. Sunderman F.W.Jr. i in.: Manganese inhibition of sarcoma induction by benzo in rats. Carcinogenesis 1980, 1, 613-620.
144. Suzuki Y. i in.: Distribution of chromium in rats exposed to hexava chromium and trivalent chromium aerosols. Ind. Health. 1984, 22: 261-267.
145. Suzuki Y., Fukuda F.: Reduction of hexavalent chromium by ascorbic acid and g with special reference to the rat lung. Arch. Toxicol. 1990, 64: 169-176.
146. Szczeciński Z.: Spawalnictwo polskie w końcu XX wieku. Bezp. Pracy 1983, nr 5.
147. Threshold limit values and biological exposure indices for 1991-1992. ACGiH Cincinnati 1991, 16, 38.
148. Tola S. i in.: Urinary chromium as an indicator of the exposure of welders to chromium. Scand. J. Work. Environ. Health 1977, 3: 192-202.
149. Tomes (R) Hazard Management. Chromium (c), 1987-1995. Micromedex Inc. Vol. 24, Expires 4/30/95.
150. Tomes (R) Medical Management. Chromium. (c), 1987-1995 Micromedex Inc. Vol.24, Expires 4/30/95.
151. Tossavajnen A.: Metal fumes in foundries. Scand. J. Work Environ. Health, 2 (Suppb.1) 1976, 42-49.
152. Tossavainen A. i in.: Application of mathematical modelling for assessing the biological half-times of chromium and nickel in field studies. Br. J. Ind. Med. 1980, 37: 285-29 1.
153. Toxicological profile for chromium. US Department of Health and Human Services Public Health Service. Agency for Toxic Substances and Disease Registry. TP 92/08, April 1993.
154. Triebig G. i in.: Studies on the nephrotoxicity of heavy metals in iron and steel industries. J. Biochem. Toxicol. 1987, 1, 29-39.
155. Vernot E.H. i in.: Acute toxicity and skin corrosion data for some organic and inorganic compounds and aqueous solutions. Toxicol. Appl. Pharmacol. 1977, 42: 4 17-423.
156. Verschoor M.A. i in.: Renal function of chrome plating workers and welders. Int. Arch. Occup. Environ Health 1988, 60, 67-70.
157. Van der Wal J.F.: Exposure of welders to fumes Cr, Ni, Cu and gases in Dutch industries. Ann. Occup. Hyg. 1985, 29, 377-389.
158. Van der Wal J.F.: Exposure of welders to fumes Cr, Ni and Cu and gases from the welding of stainlees and high alloy steels. W: Stern R.M. [red.] 1986.
159. Visek W.J. i in.: Metabolism of Cr51 by animals as influenced by chemical state. Proc. Soc. Exp. Biol. Med. 1953, 84: 610-615.
160. Votava H.J., Hahn C.J., Evan G. W.: Isolation and partial purification of a 51Cr complex from brewers yeast. Biochem. Biophys. Res. Commun. 1973, 55: 312-319.
161. Wahlberg J.E., Skog E.: Percutaneous absorption of trivalent and hexavalent chromium. Arch. Dermatol. 1965, 92: 315-318.
162. Wapner KL., Morris D.M., Black J.: Relase of corrosion products by F-75 cobalt base alloy in the rat. II. Morbidity apparently associated with chromium release in vivo: a 120-day rat study. J. Biomed. Mat. Res. 1986, 20, 2 19-233.
163. Wiegand H.J., Ottenwalder H., Bolt H.M.: The reduction of chromium (VI) to chromium (III) by głutathione: An intracellurar redox pathway in the metabolism of the carcinogen chromate. Toxicobogy 1984, 33: 341-348.
164. Wiegand H.J., Ottenwalder H., Boit H.M.: Bioavailabity and metabolism of hexavalent chromium compounds. Toxical. Environ. Chem. 1987, 14: 263-275.
165. Wittmer C.M., Harris R., Shupack S.I.: Orał bioavailability of chromium from a specific site. Enyiron. Heałth. Persp. 1991, 92: 105-110.
166. Wittmer C.M., Park H-S, Shupack S.I.: Mutagenicity and disposition of chromium. Sci. Total. Environ. 1989, 86: 131-148.
167. Zahid Z.R. i in.: Comparative effects of trivalent and hexavalent chromium on spermatogenesis of the mouse. Toxicol. Environ. Chem. 1990, 25: 13 1-136
168. Zober A.: Possible dangers to the respiratory tract from welding fumes: methods of apprach in an industrial health care context and results. Schweissen, Schneiden, 1982, 34(2); 78-81.

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-2eeb17af-a232-4341-9ec9-8c5aeca42b5c