Your search keyword '"Barratt MD"' showing total 5 results

1. Structure-activity relationships and prediction of the phototoxicity and phototoxic potential of new drugs.

Author

Barratt MD

Subjects

Allergens, Chemical Phenomena, Chemistry, Physical, Dermatitis, Contact etiology, Dermatitis, Photoallergic, Molecular Structure, Software, Spain, Dermatitis, Phototoxic, Structure-Activity Relationship, Toxicity Tests

Abstract

Relationships between the structure and properties of chemicals can be programmed into knowledge-based systems such as DEREK for Windows (DEREK is an acronym for "Deductive Estimation of Risk from Existing Knowledge"). The DEREK for Windows computer system contains a subset of over 60 rules describing chemical substructures (toxophores) responsible for skin sensitisation. As part of the European Phototox Project, the rule base was supplemented by a number of rules for the prospective identification of photoallergens, either by extension of the scope of existing rules or by the generation of new rules where a sound mechanistic rationale for the biological activity could be established. The scope of the rules for photoallergenicity was then further refined by assessment against a list of chemicals identified as photosensitisers by the Centro de Farmacovigilancia de la Comunidad Valenciana, Valencia, Spain. This paper contains an analysis of the mechanistic bases of activity for eight important groups of photoallergens and phototoxins, together with rules for the prospective identification of the photobiological activity of new or untested chemicals belonging to those classes. The mechanism of action of one additional chemical, nitrofurantoin, is well established; however, it was deemed inappropriate to write a rule on the basis of a single chemical structure.

Published

2004

2. Development and prevalidation of a list of structure-activity relationship rules to be used in expert systems for prediction of the skin-sensitising properties of chemicals.

Author

Gerner I, Barratt MD, Zinke S, Schlegel K, and Schlede E

Subjects

Animal Testing Alternatives, Chemical Phenomena, Chemistry, Physical, Computers, Molecular Structure, Quantitative Structure-Activity Relationship, Sensitivity and Specificity, Dermatitis, Contact etiology, Reproducibility of Results, Structure-Activity Relationship, Toxicity Tests methods, Toxicity Tests standards

Abstract

The new European Union (EU) chemicals policy, as described in the White Paper entitled Strategy for a Future Chemicals Policy, has identified a need for computer-based tools suitable for predicting the hazardous properties of chemicals. Two sets of structural alerts (fragments of chemical structure) for the prediction of skin sensitisation hazard classification ("R43, may cause sensitisation by skin contact") have been drawn up, based on sensitising chemicals from a regulatory database (containing data for the EU notification of new chemicals). These alerts comprise 15 rules for chemical structures deemed to be sensitising by direct action of the chemicals with cells or proteins within the skin, and three rules for substructures that act indirectly, i.e. requiring chemical or biochemical transformation. The predictivity rates of the rules were found to be good (positive predictivity, 88%; false-positive rate, 1%; specificity, 99%; negative predictivity, 74%; false-negative rate, 80%; sensitivity, 20%). Because of the confidential nature of the regulatory database, the rules are supported by examples of sensitising chemicals taken from the "Allergenliste" now held by the Federal Institute for Risk Assessment (BfR) and the DEREK for Windows expert system. The rules were prevalidated against data not used for their development. As a result of the prevalidation study, it is proposed that the two sets of structural alerts should be taken forward for formal validation, with a view to incorporating them into regulatory guidelines.

Published

2004

3. QSAR, Read-across and REACH.

Author

Barratt MD

Subjects

Drug-Related Side Effects and Adverse Reactions, Pharmaceutical Preparations classification, Reproducibility of Results, Animal Testing Alternatives, Quantitative Structure-Activity Relationship, Toxicity Tests methods

Published

2003

4. The Integrated Use of Alternative Methods in Toxicological Risk Evaluation - ECVAM Integrated Testing Strategies Task Force Report 1.

Author

Blaauboer BJ, Barratt MD, and Houston JB

Abstract

The ECVAM Task Force on Integrated Testing Strategies was established in December 1996, with the remit of assessing the current status of integrated toxicity testing, and of making proposals regarding the design and implementation of integrated testing strategies. The first step in an integrated testing strategy is usually to determine the chemical functionality of a substance, on the basis of its structure and physicochemical properties. The biokinetic and dynamic behaviours of the chemical in various in vitro systems are then assessed. The various elements are then integrated, in either a parallel or a stepwise fashion, to make predictions of the local or systemic toxicity of the chemical of interest. In this report, a generic scheme for local/systemic toxicity, and a specific scheme for target organ toxicity, are proposed. The scope and limitations of the approaches are discussed. The task force hopes that its proposals will stimulate a discussion on the feasibility of this type of approach and it welcomes any feedback. It is planned that the discussion points will be elaborated in a second task force report., (1999 FRAME.)

Published

1999

5. The validation of computational prediction techniques.

Author

Worth AP, Barratt MD, and Houston JB

Published

1998