Affiliation:
1. Entomology and Pesticide Department Faculty of Agriculture Cairo University Giza Egypt
2. Dairy Science Department Faculty of Agriculture Cairo University Giza Egypt
3. Department of Biochemistry College of Science University of Jeddah Jeddah Saudi Arabia
4. Department of Chemistry College of Sciences Ibb University Ibb Governorate Yemen
Abstract
AbstractLead is considered a common old chronic toxicant around the world due to expanded environmental pollution, it is likely an inevitable contaminant in food, dairy products, air etc. Also, fipronil is a wide‐ranging effective N‐phenyl pyrazole insecticide which used commonly in agriculture and public health insect control, but until now no adequate data are available on the oxidative stress, cytotoxicity, and mutagenic influence of fipronil and lead or their mixture subchronic exposure. Both xenobiotics (lead and fipronil) exert a harmful impact on reproduction, prompting the exploration of various foods for functional protection. The present study investigated the effects of camel milk treatments on reproductive problems caused by lead acetate with or without mixing with fipronil in male albino rats. Liver oxidative stress, testicular relative weight, sperm analysis, investigation of chromosomal aberration, and histopathological examination of testis were performed. The results showed that the oxidative stress was elevated in rats treated with fipronil, lead acetate, and their mixture, which were reduced through camel milk treatments. Sperm counts were decreased significantly in lead and/or fipronil exposure but significantly elevated with camel milk intoxicated treated. Sperm morphological abnormalities and chromosomal aberrations in intoxicated groups were reduced significantly in camel milk‐treated animals relative to untreated intoxicated groups. Testicular histopathological results showed moderate common degeneration of seminiferous tubules in lead and/or fipronil‐intoxicated rats which were ameliorated by camel milk treatments. Generally, it can be concluded that lead and fipronil together in a mixture resulted in or induced severe reproductive problems and oxidative stress over lead or fipronil alone. Camel milk treatment significantly decreased the harmful oxidative stress in reproductive as well as the mutagenicity disorder associated with lead and fipronil exposure in male albino rats.
Reference32 articles.
1. Long term conjugated linoleic acid supplementation modestly improved growth performance but induced testicular tissue apoptosis and reduced sperm quality in male rabbit;Abdelatty A. M.;PLoS ONE,2020
2. The protective effect of wheat germ oil against genotoxicity and pathological changes induced by mutagenic drug in mice;Abdel‐Aziem S. H.;Journal, Genetic Engineering & Biotechnology,2005
3. Boosting immune system: Camel milk alleviation of abnormal growth and fertility system changes induced by gamma radiation in male albino rats;Abdel‐Mobdy A. E.;Annals of the Romanian Society for Cell Biology,2021
4. Evaluation of therapeutic and protective influences of camel milk against gamma radiation–induced hematotoxicity, hepatotoxicity and nephrotoxicity in albino rats;Abdel‐Mobdy A. E.;Annals of the Romanian Society for Cell Biology,2021
5. Evaluation of therapeutic effects of camel milk against the hepatotoxicity and nephrotoxicity induced by fipronil and lead acetate and their mixture;Abdel‐Mobdy Y. E.;Environmental Science and Pollution Research,2023