López-Massaguer, Oriol, Pinto-Gil, Kevin, Sanz, Ferran, Amberg, Alexander, Anger, Lennart, Stolte, Manuela, Ravagli, Carlo, Marc, Philippe and Pastor, Manuel (2017) Generating modelling data from repeat-dose toxicity reports. Toxicological Sciences. ISSN 1096-60801096-0929

Abstract

Over the past decades, pharmaceutical companies have conducted a large number of high quality in vivo repeat-dose toxicity (RDT) studies for regulatory purposes. As part of the eTOX project, a high number of these studies have been compiled and integrated into a database. This valuable resource can be queried directly, but it can be further exploited to build predictive models. As the studies were originally conducted to investigate the properties of individual compounds, the experimental conditions across the studies are highly heterogeneous. Consequently, the original data required normalization/standardization, filtering, categorization and integration to make possible any data analysis (such as building predictive models). Additionally, the primary objectives of the RDT studies were to identify toxicological findings, most of which do not directly translate to in vivo endpoints. This article describes a method to extract datasets containing comparable toxicological properties for a series of compounds amenable for building predictive models. The proposed strategy starts with the normalization of the terms used within the original reports. Then, comparable datasets are extracted from the database by applying filters based on the experimental conditions. Finally, carefully selected profiles of toxicological findings are mapped to endpoints of interest, generating QSAR-like tables. In this work, we describe in detail the strategy and tools used for carrying out these transformations and illustrate its application in a data sample extracted from the eTOX database. The suitability of the resulting tables for developing hazard-predicting models was investigated by building proof-of-concept models for in vivo liver endpoints.

Item Type:	Article
Keywords:	in silico modeling, toxicity, eTOX, histopathology, chemistry
Date Deposited:	12 Dec 2017 00:45
Last Modified:	12 Dec 2017 00:45
URI:	https://oak.novartis.com/id/eprint/33882