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Modeling and MANOVA studies on toxicity and endocrine potential of packaging materials exposed to different extraction schemes

Abstract

The stability of the linings of packaging that is in contact with the goods stored has been of major concern during decades of the development of packaging materials. In this work, an attempt was undertaken to assess the applicability of using two bioassays (Microtox® and XenoScreen YES/YAS) in estimating the stability of packaging (cans, caps, multilayer material) and the impact of their degradation on the toxicity of some simulated media. The assessment of the impact of packaging storage conditions (temperature, disinfection, preservation, extracting and washing solvents) was planned and performed with i) regression modeling of the experimental effects on the ecotoxicity readings, ii) ANOVA and MANOVA estimation of the experimental conditions as significant factors affecting the toxicity results and iii) FTIR analysis of the packages. It is shown that the effects of temperature and extraction solvents could be quantitatively assessed by the agreement between all methods applied. It can be stated that temperature and acidity as well as the alcohol content in the sensitive media have the greatest impact on the toxicity of the extract and thus on the stability of the internal lining and the extractability of xenobiotics.

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Category:
Articles
Type:
artykuł w czasopiśmie wyróżnionym w JCR
Published in:
ENVIRONMENTAL RESEARCH no. 165, pages 294 - 305,
ISSN: 0013-9351
Language:
English
Publication year:
2018
Bibliographic description:
Szczepańska N., Kudłak B., Tsakovski S., Yotova G., Nedyalkova M., Simeonov, V., Dołęga A., Namieśnik J.: Modeling and MANOVA studies on toxicity and endocrine potential of packaging materials exposed to different extraction schemes// ENVIRONMENTAL RESEARCH. -Vol. 165, (2018), s.294-305
DOI:
Digital Object Identifier (open in new tab) 10.1016/j.envres.2018.05.004
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  2. In any case, the performance of future work is indispensable to i) identify the chemicals 698 responsible for observable toxicological levels (currently being performed in many scientific centers 699 and laboratories including those of the authors), ii) assess the applicability of other bioassays as 700 presented in the methodology of this research, iii) construct a battery of bioassays enabling exposure 701 and degradation assessment for different types of packages and FCM, being at the same time 702 complementary and universal for various treatment regimes, iv) propose international standards on 703 the application of certified bioassays as recognized tools in the assessment of exposure to pollutants 704 migrating from and created within FCMs, and v) comprehensively estimate (with classical and 705 biological tools) the impact of packaging material wastes reaching different environmental niches 706 after being used by households and industry, as they pose a serious source of small molecules and 707 open in new tab
  3. The work has been co-financed by the National Science Center, Poland, grant no. 711 2015/17/N/ST4/03835. The support of H2020 program of the European Union (project Materials 712 Networking) is gratefully acknowledged by prof. V. Simeonov, prof. S. Tsakovski, Dr. M. Nedyalkova 713 and Dr. G. Yotova. 714 715 References: open in new tab
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