Yu Wang

TL;DR: Regression analysis showed that log 1/LD₅₀ in oral route was related to the toxicity in injection route, which indicates that tissue distribution of compounds between blood and target site is a very rapid process, leading to log 1/(LD) in injection greater than those in oral administration.

TL;DR: The toxicity data of 2624 chemicals to fish, Daphniamagna, Tetrahymenapyriformis and Vibriofischeri were used to investigate the effects of species sensitivity and bioconcentration on excess toxicity, and the results showed that 47 chemical classes were identified as having the same modes of action (MOAs) to all four species, but more than half of the classes were identify as having different MOAs.

TL;DR: The results showed that some compounds identified as reactive compounds exhibit excess toxicity, but some do not, and the foundation in the discrimination of excess toxicity from baseline effect is based on the linear relationship between log BCF and hydrophobicity expressed as log KOW, however, logBCF is not linearly related with log Kow for all the compounds.

TL;DR: The results showed that rat toxicity varies around a constant for classified compounds or homologues, and very close critical body residues (CBRs) calculated from percentage of absorption and bioconcentration factors indicate that most of aliphatic chemicals may share the same modes of toxic action between rat and fish species.