Difference between revisions of "TCA in groundwater"
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In text: chapters 8 Toxicology & 9 Estimation of nontoxic dose | In text: chapters 8 Toxicology & 9 Estimation of nontoxic dose | ||
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+ | * TCA has been used as an industrial degreasing solvent | ||
+ | * TCA is absorbed from the gastrointestinal tract and 30 % from the lungs | ||
+ | * Chemical is rapidly distributed to all tissues via bloodstream | ||
+ | * Only few weakly positive results for mutagenicity of TCA | ||
+ | ** These results can be explained by butylene oxide present in some commercial formulations of TCA | ||
+ | * No teratogenic effects in rodents exposed to TCA | ||
== Dose-Response assessment == | == Dose-Response assessment == |
Revision as of 10:25, 13 September 2006
Introduction to Environmental risk analysis - course
Groupwork
Mikko Pohjola
Juha Villman
James L. Byard: Hazard Assessment of 1,1,1-Trichloroethane in Groundwater
Contents
Identification of Hazard
In text: chapters 8 Toxicology & 9 Estimation of nontoxic dose
- TCA has been used as an industrial degreasing solvent
- TCA is absorbed from the gastrointestinal tract and 30 % from the lungs
- Chemical is rapidly distributed to all tissues via bloodstream
- Only few weakly positive results for mutagenicity of TCA
- These results can be explained by butylene oxide present in some commercial formulations of TCA
- No teratogenic effects in rodents exposed to TCA
Dose-Response assessment
In text: 8 Toxicology & 9 Estimation of nontoxic dose
- 15 minutes of vapor concentrations of TCA increasing from 0 to 2650 ppm
- Mild eye irritation at 1000 - 1100 ppm
- Throat irritation at 1900 - 2000 pm
- Lightheadedness at 2600 ppm
- Inability to stand at 2650 ppm
Exposure assessment
In text: 6 Exposure & 7 Determination of dose
Risk Characterization
In text: 10 Conclusions & 9 Estimation of nontoxic dose