Assessment and validation of the CAESAR predictive model for bioconcentration factor (BCF) in fish
نویسندگان
چکیده
BACKGROUND Bioconcentration factor (BCF) describes the behaviour of a chemical in terms of its likelihood of concentrating in organisms in the environment. It is a fundamental property in recent regulations, such as the European Community Regulation on chemicals and their safe use or the Globally Harmonized System for classification, labelling and packaging. These new regulations consider the possibility of reducing or waiving animal tests using alternative methods, such as in silico methods. This study assessed and validated the CAESAR predictive model for BCF in fish. RESULTS To validate the model, new experimental data were collected and used to create an external set, as a second validation set (a first validation exercise had been done just after model development). The performance of the model was compared with BCFBAF v3.00. For continuous values and for classification purposes the CAESAR BCF model gave better results than BCFBAF v3.00 for the chemicals in the applicability domain of the model. R² and Q² were good and accuracy in classification higher than 90%. Applying an offset of 0.5 to the compounds predicted with BCF close to the thresholds, the number of false negatives (the most dangerous errors) dropped considerably (less than 0.6% of chemicals). CONCLUSIONS The CAESAR model for BCF is useful for regulatory purposes because it is robust, reliable and predictive. It is also fully transparent and documented and has a well-defined applicability domain, as required by REACH. The model is freely available on the CAESAR web site and easy to use. The reliability of the model reporting the six most similar compounds found in the CAESAR dataset, and their experimental and predicted values, can be evaluated.
منابع مشابه
In vitro methodologies in ecotoxicological hazard assessment: the case of bioaccumulation testing for fish.
Worldwide programmes for the regulation of chemicals require an assessment of the risks of chemicals to human and environmental health based on three categories of concern: Persistence, Bioaccumulation and Toxicity (PBT). Among these three categories, bioaccumulation refers to the enrichment of environmental chemicals in organisms. It encompasses the absorption, distribution, metabolism and exc...
متن کاملAn alternative QSAR-based approach for predicting the bioconcentration factor for regulatory purposes.
The REACH (Registration, Evaluation, Authorization and restriction of Chemicals) and BPR (Biocide Product Regulation) regulations strongly promote the use of non-animal testing techniques to evaluate chemical risk. This has renewed the interest towards alternative methods such as QSAR in the regulatory context. The assessment of Bioconcentration Factor (BCF) required by these regulations is exp...
متن کاملReview of QSAR Models for Bioconcentration
New laws resulting from enactment of the United Nations Stockholm Convention in May 2004 together with the new REACH legislation, have led to significant new activity in the assessment of Persistent, Bioaccumulative, Toxic substances (PBT). Bioconcentration is the process of accumulation of chemicals by organisms through non-dietary routes. The tendency of a substance to bioconcentrate in aquat...
متن کاملPrimary Aromatic Amines: the Contribution of Sedi- Ment Organisms to Human Exposure
3,4-Dichloroaniline (DCA) showed an unusually high bioconcentration factor (BCF) up to 800 in the sediment dweller Lumbriculus variegatus, exceeding BCFs found in fish and other aquatic organisms by a factor of 8–40. In the scope of the European Risk Assessment process for different aromatic amines, concern was expressed with regards to biomagnification and secondary poisoning of man. Although ...
متن کاملInternal benchmarking improves precision and reduces animal requirements for determination of fish bioconcentration factors.
The enactment of new chemical regulations has generated a large need for the measurement of the fish bioconcentration factor (BCF). Past experience shows that the BCF determination lacks precision, requires large numbers of fish, and is costly. A new protocol was tested that shortens the experiment from up to 12 weeks for existing protocols to 2 weeks and reduces the number of fish by a factor ...
متن کامل