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Application of Microencapsulation for Toxicology StudiesI. Principles and Stabilization of Trichloroethylene in Gelatin–Sorbitol Microcapsules

Application of Microencapsulation for Toxicology StudiesI. Principles and Stabilization of... Abstract Application of Microencapsulation for Toxicology Studies. I. Principles and Stabilization of Trichloroethylene in Gelatin-Sorbitol Microcapsules. Melnick, R. L., JAMESON, C. W., GOEHL, T. J., AND KUHN, G. O. (1987). Fundam. Appl. Toxicol. 8, 425–431. Microencapsulation is an innovative, alternative means of incorporating volatile, reactive, and/or unpalatable chemicals into animal feed for toxicologic studies. For such usage, the materials in the microcapsule shell must not adversely affect the laboratory animals, and the encapsulation process must not alter the chemical under study. Trichloroethylene (TCE), a volatile chemical identified in drinking water, was encapsulated in gelatin–sorbitol microcapsules. The concentration of TCE ranged from 40 to 43% (w/w) and most particles (∼85%) were between 300 and 420 μm in diameter. Under optimum storage conditions, loss of TCE from the microcapsules was less than 1% per month. Less than 2% of the TCE was lost from microcapsules held in uncovered petri dishes at ambient temperature and humidity for 14 days. Microencapsulated TCE was mixed with NIH-07 rodent feed at a level of 50 mg microcapsules/g feed (equivalent to 20.6 mg TCE/g feed) and stored at room temperature for 7 days in an open container or for 21 days in a sealed container. There was no detectable loss of TCE from the feed blends stored under these conditions. Thus, the stability of TCE in gelatin–sorbitol microcapsules is adequate for dosed-feed toxicity studies of this chemical. This content is only available as a PDF. © 1987 by the Society of Toxicology http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Toxicological Sciences Oxford University Press

Application of Microencapsulation for Toxicology StudiesI. Principles and Stabilization of Trichloroethylene in Gelatin–Sorbitol Microcapsules

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Publisher
Oxford University Press
Copyright
© 1987 by the Society of Toxicology
ISSN
1096-6080
eISSN
1096-0929
DOI
10.1093/toxsci/8.4.425
Publisher site
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Abstract

Abstract Application of Microencapsulation for Toxicology Studies. I. Principles and Stabilization of Trichloroethylene in Gelatin-Sorbitol Microcapsules. Melnick, R. L., JAMESON, C. W., GOEHL, T. J., AND KUHN, G. O. (1987). Fundam. Appl. Toxicol. 8, 425–431. Microencapsulation is an innovative, alternative means of incorporating volatile, reactive, and/or unpalatable chemicals into animal feed for toxicologic studies. For such usage, the materials in the microcapsule shell must not adversely affect the laboratory animals, and the encapsulation process must not alter the chemical under study. Trichloroethylene (TCE), a volatile chemical identified in drinking water, was encapsulated in gelatin–sorbitol microcapsules. The concentration of TCE ranged from 40 to 43% (w/w) and most particles (∼85%) were between 300 and 420 μm in diameter. Under optimum storage conditions, loss of TCE from the microcapsules was less than 1% per month. Less than 2% of the TCE was lost from microcapsules held in uncovered petri dishes at ambient temperature and humidity for 14 days. Microencapsulated TCE was mixed with NIH-07 rodent feed at a level of 50 mg microcapsules/g feed (equivalent to 20.6 mg TCE/g feed) and stored at room temperature for 7 days in an open container or for 21 days in a sealed container. There was no detectable loss of TCE from the feed blends stored under these conditions. Thus, the stability of TCE in gelatin–sorbitol microcapsules is adequate for dosed-feed toxicity studies of this chemical. This content is only available as a PDF. © 1987 by the Society of Toxicology

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Toxicological SciencesOxford University Press

Published: Apr 1, 1987

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