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Voluntary Children’s Chemical Eva
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6.1.2 Types of Adverse Health Effec
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Glossary of Terms μg Microgram AA
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STEL Short-Term Exposure Limit TEAM
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enzene induced pancytopenias can pr
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A fertility study in female rats ex
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estimate is very conservative both
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2.0 BASIS FOR INCLUSION OF BENZENE
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2.5 Air Monitoring Data Several of
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Table 3.1: Proposed Benzene AEGL Va
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4.0 Regulatory Overview This sectio
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passenger vehicles operated at cold
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Benzene has been designated a hazar
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products had ceased” [46 Fed. Reg
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5.0 CHEMICAL OVERVIEW This section
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Table 5.3: Environmental Fate and T
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- Page 41 and 42: Table 5.11: Benzene Releases for Al
- Page 43 and 44: 6.1.2.2 Chronic Toxicity Toxicity a
- Page 45 and 46: 6.1.2.2e Other Hematopoietic Malign
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- Page 51 and 52: increased risk of disease. It shoul
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- Page 55 and 56: exposure. This was also supported b
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- Page 59 and 60: development of MDS)and/or AML. It i
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- Page 63 and 64: 4.0, 95% CI = 1.8-9.3) but not ALL
- Page 65 and 66: 6.2 Benzene Toxicology—Animal Haz
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- Page 71 and 72: Table 6.2: In Vivo Genotoxicity of
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- Page 87 and 88: increased resorptions. The effects
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- Page 93 and 94: 6.2.5.2 Chronic Toxicity Repeat-dos
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- Page 121 and 122: factor change attributable to benze
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In-Vehicle Exposures In-vehicle exp
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Table 7.30: Average of Mean In-Vehi
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e similar to those in other U.S. st
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vehicle); the total amount of time
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use of small non-road engine equipm
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Children may be exposed to benzene
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Table 7.36: Typical School Year Wee
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An addition of less than 1 µg/m 3
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In the mid-1990s, the American Petr
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Table 7.44: Dermal Benzene Absorpti
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Table 7.47: Product Names and Manuf
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Table 7.49: Summary of Age-Specific
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For children and non-smoking adults
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Benzene Exposure (mg/kg-day) Figure
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ackground pathways of exposure, inc
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8.1.3 EPA Default Risk Assessment N
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8.2.1 Potential for Increased Sensi
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These findings illustrate examples
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information associated with benzene
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species are more sensitive than oth
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8.2.3.1 Point of Departure for Non-
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Cancer risks were calculated using
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NONCANCER HAZARD QUOTIENT 1.00 0.09
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Table 8.1. Derivation of noncancer
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Table 8.3. Points of departure for
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Table 8.4. (cont.) Noncancer Hazard
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Table 8.5. Noncancer hazard quotien
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Table 8.6. Cancer risk estimates as
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Table 8.7. Indoor air comparison (i
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Table 8.9. Noncancer margins of saf
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Table 8.10. Noncancer margins of sa
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Table 8.11. Indoor air comparison (
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Table 8.13. (cont.) Notes: Cancer M
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the continental U.S. for each leuke
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in significant reductions in benzen
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Aksoy M (1977) Leukemia in workers
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Austin, C.C., Wang, D., Ecobichon,
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Buckley, J.D., Ribison, L.L., Swoti
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CONCAWE. 1996. Scientific basis for
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Ding, X-J, Li, Y., Ding, Y. el al.
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Forni, A. 1994. Comparison of chrom
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Goldwater LJ (1941) Disturbances in
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Hsieh, G.C., Parker, R.D., and Shar
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Jo, W.K. and Park, K.H. 1998. Expos
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Lange, A., Smolik, R., Zatonski, W.
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Lynge E, Andersen A, Nilsson R, Bar
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Meadows, A., Obringer, A. M. O., Ba
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Nedelcheva V, Gut I, Soucek P, Tich
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Picciani, D. 1979. Cytogenetic stud
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Ross D, Siegel D, Gibson NW, Pachec
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Sathiakumar, N., Delzell, E., Cole,
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Smith, M. T., Zhang, L. P., Wang, Y
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Thomas, K.W., Pellizzari, E.D., Cla
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United States Environmental Protect
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URS. 2002. Air Quality Trend in the
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Weisel, C.P. 2002. Assessing exposu
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Xing, S.G., Shi, X., Wu, Z.L., Chen
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