Bulbulyan et al., Russia, 1999 [6] |
3473 female employees of two printing plants employed >2 years, 1978–93, followed up for cancer incidence from 1979 to 1993 |
Area air sampling data plus job description data; job type: compositors, press operators, bookbinders, and other |
Talc with asbestos contamination |
Paper dust, benzene, aromatic hydrocarbons, carbon black, lead |
Unknown |
|
Coggiola et al., Italy, 2003 [7] |
1795 male employees from Italian talc mine employed >1 year, 1946–1995, followed up from 1946 to 1995 |
Job histories from plant records; job type: miner versus miller; duration of exposure and time since first exposure (years) |
Talc without asbestiform fibers; >200 mppcf in 1950, <5 mppcf in 1965 |
Quartz, radon (miners) |
44%–47% smokers compared to 34% in Italian population (1994) |
|
Fu and Zhang, China, 1992 [8] |
1357 male workers in Haichen talc mines employed >1 year in January 1974, followed up through 1988 |
Job histories from factory records; job type: miner versus miller; medical exam records in local hospitals; duration of exposure and time since first exposure (years) |
Talc without asbestiform fibers |
Radon (miners) |
64% smokers |
|
Honda et al., USA, 2002 [9] |
782 male employees from a New York talc mining and milling facility employed >1 day, 1948–1989, followed up from 1950 to 1989 |
Cumulative respirable dust exposure estimation for individual subjects from a job-exposure matrix consisting of estimates of respirable dust concentrations for all work area and calendar year combinations |
Talc with asbestos contamination; 0.1–1.7 mg/m3
|
Asbestos, nonasbestiform amphibole, taconite |
Unknown |
|
Li and Yu, China, 1998 [10] |
934 male and 664 female workers of a Shanghai rubber factory who entered a screening program for heart disease in 1972, followed up from 1973 to 1995 |
Based on information on work history obtained from the records of a screening program for heart disease |
Talc with asbestos contamination was exposed to the workers engaged in the production of tires and inner tubes |
Nitrosamine, multiple solvents |
63% for male workers and 9% for female workers compared to 46% for men and 5% for women in general population |
|
McLean et al., multinational, 2006 [11] |
60,468 workers employed > 1 year in the pulp and paper industry in 11 countries, 1920–1996; followed up through 1996 |
Exposure was estimated at the department level based on assessments of an international panel of industrial hygiene experts through detailed company questionnaires |
Talc with asbestos contamination, categorized into ever-exposure and ever-high-exposure levels |
Paper dust, asbestos, multiple volatile, and nonvolatile organochlorine compounds |
Unknown |
|
Nie et al., China, 1992 [12] |
8654 male and 3564 female pottery workers (412 with talc exposure) employed >1 year, 1972–1974, followed up through 1989 |
Area air sampling data plus work histories; minerals analyzed by phase contrast microscopy |
Talc without asbestiform fibers; 1–18% of total dust |
Silica |
Unknown |
|
Stern et al., USA, 2001 [13] |
12873 males of the Operative Plasterers' and Cement Masons' International Association, 1972–1996; followed up through 1996 |
Potential worker exposures were based on a representative sample of 4,500 U.S. industrial facilities conducted by the USA National Occupational Exposure Survey (NOES) during 1981–1983 |
Talc with asbestos contamination |
Cement dust, 1,1,1- trichloroethylene, quartz, sand, mica, silica, attapulgite, asphalt, brick clay, carbon tetrachloride, dioxane, tetrachloroethylene, fiberglass |
Unknown |
|
Selevan et al., USA, 1979 [14] |
388 male talc workers from 5 talc producing companies in Vermont employed >1 year, 1940–1969, followed up from 1940 to 1975 |
Based on historical data that demonstrated past exposure levels far exceeded the standard for nonfibrous talc of 20 mppcf |
Talc without asbestiform fibers; commonly >20 mppcf |
Quartz (<0.25%) |
Unknown |
|
Straif et al., Germany, 2000 [15] |
8933 male employees from 5 German rubber plants employed >1 year retired or active in 1981 followed up from 1981 to 1991 |
Work histories reconstructed from cost center codes plus semiquantitative cumulative exposure |
Talc with asbestos contamination |
Asbestos, nitrosamines, carbonblack |
Unknown |
|
Thomas and Stewart, USA, 1987 [16] |
2055 white male workers from American pottery factory employed >1 year, 1939–66; mortality follow-up through 1981 |
Exposure to silica and talc assessed qualitatively by job title and department by industrial hygienist |
Nonfibrous talc (a subgroup of workers exposed only to silica and nonfibrous talc) |
Quartz |
Unknown |
|
Wergeland et al., Norway, 1990 [17] |
389 male employees from a Norwegian talc mill employed >2 years, 1935–1972, followed up from 1953 to 1987 |
Subjective assessment of exposure by experienced employees; workers classified based on low, medium, high, and unknown exposure by total duration of employment in jobs |
Talc without asbestiform fibers. For miners: 0.94–97.35 mg/m3 peaked at 319 mg/m3 0.2–0.9 f/ml. For millers: 1.4–54.1 mg/m3 peaked at 109 mg/m3 0.2–0.9 f/ml |
Radon (miners) |
76% smokers (miners) |
|
Wild et al., Austria, 2002 [18] |
542 male workers of an Austrian talc producing company employed >1 year, 1972–1995, followed up from 1972 to 1995 |
Semiquantitative, site-specific job-exposure matrix based on personal dust measurements and descriptions from employees |
Talc without asbestiform fibers; >30 mg/m3 before 1960, 5–30 mg/m3 until 1980, <5 mg/m3 thereafter |
Quartz (<3%) |
42% smokers |
|
Wild et al., France, 2002 [18] |
945 male employees from a French talc mill employed >1 year, 1945–1994, followed up from 1968 to 1995 |
Semiquantitative, site-specific job-exposure matrix based on personal dust measurements and descriptions from employees |
Talc without asbestiform fibers; >30 mg/m3 before 1970s, 5–30 mg/m3 until 1990, <5 mg/m3 thereafter |
Quartz (<3%) |
59% smokers compared to 39% French population (1986) |