Influence of nonylphenol from multilayer plastic films on artificial insemination of sows

Artificial insemination is common practice in mass livestock farming. Recently, it was shown that chemicals leaching from multilayer plastic bags affect the fertility of boars, although common quality tests did not show any impact on the sperm. It is not clear whether this incidence was a single cas...

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Bibliographic Details
Published in:Analytical and bioanalytical chemistry 2020-09, Vol.412 (24), p.6519-6528
Main Authors: Nerín, Cristina, Su, Qi-Zhi, Vera, Paula, Mendoza, Noelia, Ausejo, Raquel
Format: Article
Language:English
Subjects:
Acrosomes
Analytical Chemistry
Animals
Artificial insemination
Biochemistry
Characterization and Evaluation of Materials
Chemistry
Chemistry and Materials Science
Ethanol
Female
Female Role Models in Analytical Chemistry
Fertility
Fertility - drug effects
Food Science
Insemination, Artificial
Isomers
Laboratory Medicine
Leaching
Livestock
Livestock farming
Male
Migrants
Mitochondria
Mode of action
Monitoring/Environmental Analysis
Multilayers
Nonylphenol
Phenols - adverse effects
Phenols - analysis
Plastics
Plastics - adverse effects
Plastics - chemistry
Polymer films
Reproduction (biology)
Research Paper
Semen
Semen - cytology
Semen - drug effects
Semen Analysis
Sperm
Swine - physiology
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Summary:Artificial insemination is common practice in mass livestock farming. Recently, it was shown that chemicals leaching from multilayer plastic bags affect the fertility of boars, although common quality tests did not show any impact on the sperm. It is not clear whether this incidence was a single case or whether it could be a systematic problem. Therefore, we studied six multilayer plastic bags. A total of 49 compounds were found, but most of them were at very low intensity. Nonylphenols in the range of 19-99 μg/g plastic were found. Migration tests using water and 10% ethanol as simulants, to mimic the behavior of semen with the extender, were performed. The most interesting migrants in terms of potential reprotoxicity were identified as nonylphenols. The identification in depth demonstrated the presence of 10 isomers of nonylphenol with a total concentration range between 16 to 58 μg/Kg simulant, among other migrants at lower concentration. The influence of these nonylphenols and their maximum tolerable concentration in direct contact with semen from boars was studied. Motility, viability, mitochondrial activity and acrosomes reacted were significantly affected at 10 mg/Kg of nonylphenols in contact with the sperm, but in vitro penetration rate was significantly decreased with only 2 mg/Kg. Insight into the mode of action is also provided.
ISSN:1618-2642
1618-2650
DOI:10.1007/s00216-020-02698-2