The Prediction of Methylmercury Elimination Half-Life In Humans Using Animal Data: A Neural Network/Rough Sets Analysis
Document Type
Article
Publication Date
12-1-2003
Publication Title
International Journal of Toxicology and Environmental Health
DOI
10.1080/713853997
ISSN
1087-2620
Abstract
Artificial neural networks and Rough Sets methodology have been utilized to predict human pharmacokinetic elimination half-life data based on animal data training sets. Methylmercury (Hg) pharmacokinetic data was obtained from 37 literature references, which provided data on species, gender, age, weight, route of administration, dose, dose frequency, and elimination half-life based on either whole-body Hg analysis or blood Hg analysis. Data were categorized into various formats for analysis comparisons. Rough Sets methodology was utilized to identify and remove redundant independent variables. Artificial neural networks were used to produce models based on the animal data, which were in turn used to predict and compare to the human elimination half-life values. These neural network predictions were compared to allometric graphical plots of the same data. The best artificial neural network prediction was based on a "thermometer" categorical representation of the data.
Recommended Citation
Hashemi, Ray R., John Young.
2003.
"The Prediction of Methylmercury Elimination Half-Life In Humans Using Animal Data: A Neural Network/Rough Sets Analysis."
International Journal of Toxicology and Environmental Health, 66 (23): 2227-2252.
doi: 10.1080/713853997
https://digitalcommons.georgiasouthern.edu/compsci-facpubs/232
