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NIOSH REL: 100 ppm (375 mg/m3) TWA, 150 ppm (560 mg/m3) STEL
Current OSHA PEL: 200 ppm TWA, 300 ppm CEILING,
500 ppm 10minute MAXIMUM PEAK
1989 OSHA PEL: 100 ppm (375 mg/m3) TWA, 150 ppm (560 mg/m3) STEL
19931994 ACGIH TLV: 50 ppm (188 mg/m3) TWA [skin]
Description of substance: Colorless liquid with a sweet, pungent, benzenelike odor.
LEL: . . 1.1% (10% LEL, 1,100 ppm)
Original (SCP) IDLH: 2,000 ppm
Basis for original (SCP) IDLH: The chosen IDLH seems reasonable based on the statements by Patty [1963] and ANSI [1973]. Patty [1963] reported that with 600 ppm, extreme fatigue, mental confusion, exhilaration, nausea, headache, and dizziness resulted by the end of 3 hours [von Oettingen et al. 1942]. ANSI [1973] reported that exposures to concentrations greater or longer than 4,000 ppm for 5 minutes might limit selfrescue ability.
Existing shortterm exposure guidelines: National
Research Council [NRC 1987] Emergency Exposure Guidance Levels
(EEGLs):
1hour EEGL: 200 ppm
24hour EEGL: 100 ppm
ACUTE TOXICITY DATA:
Lethal concentration data:
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| Rat | Benignus 1981 | |||||
| Mouse | Benignus 1981 | |||||
| Rabbit | Smyth & Carpenter 1944 |
Other animal data: RD50 (mouse), 5,300 ppm [Nielsen and Alarie 1982].
Human data: It has been reported that extreme fatigue,
mental confusion, exhilaration, nausea, headache and dizziness
resulted from exposures to 600 ppm by the end of 3 hours
[von Oettingen et al. 1942]. In addition, the following observations
have been made: some workers will tolerate concentrations ranging
up to 200 ppm for 6 to 8 hours daily with no demonstrable
ill effects; 200 to 500 ppm for 6 to 8 hours will cause tiredness
and lassitude in most workers; and concentrations over 500 ppm
for 1 to 3 hours are definitely dangerous and will cause
symptoms attributable to depression of the central nervous system
and the bone marrow [Wilson 1943]. It has also been reported that
exposure to concentrations greater than 4,000 ppm for more
than 5 minutes might limit self rescue ability [ANSI 1973].
After 20 minutes, exposures to concentrations at 300, 500,
or 700 ppm resulted in significant increases in reaction
times; a significant decrease in perceptual speed resulted after
a 20minute exposure to 700 ppm [Gamberale and Hultengren
1972].
| Revised IDLH: 500 ppm
Basis for revised IDLH: The revised IDLH for toluene is 500 ppm based on acute inhalation toxicity data in humans [Gamberale and Hultengren 1972; von Oettingen et al. 1942; Wilson 1943]. |
REFERENCES:
1. ANSI [1973]. American National Standard, acceptable concentrations of toluene. New York, NY: American National Standards Institute, p. 6.
2. Benignus VA [1981]. Health effects of toluene: a review. Neurotoxicol 2:567588.
3. Gamberale F, Hultengren M [1972]. Toluene exposure. II. Psychophysiological functions. Scand J Work Environ Health 9:131139.
4. Nielsen GD, Alarie Y [1982]. Sensory irritation, pulmonary irritation, and respiratory stimulation by airborne benzene and alkylbenzenes: prediction of safe industrial exposure levels and correlation of their thermodynamic properties. Toxicol Appl Pharmacol 65:459477.
5. NRC [1987]. Emergency and continuous exposure guidance levels for selected airborne contaminants. Vol. 7. Ammonia, hydrogen chloride, lithium bromide, and toluene. Washington, DC: National Academy Press, Committee on Toxicology, Board on Toxicology and Environmental Health Hazards, Commission on Life Sciences, National Research Council, pp. 4761.
6. Patty FA, ed. [1963]. Industrial hygiene and toxicology. 2nd rev. ed. Vol. II. Toxicology. New York, NY: Interscience Publishers, Inc., p. 1227.
7. Smyth HF Jr, Carpenter CP [1944]. The place of the range finding test in the industrial toxicology laboratory. J Ind Hyg Toxicol 26:269273.
8. von Oettingen WF, Neal PA, Donahue DD [1942]. The toxicity and potential dangers of toluene: preliminary report. JAMA 118:579584.
9. Wilson RH [1943]. Toluene poisoning. JAMA 123:11061108.
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