Home Articles List Article Information
Egyptian Journal of Histology
Journal Archive
Volume Volume 47 (2024)
Volume Volume 46 (2023)
Volume Volume 45 (2022)
Volume Volume 44 (2021)
Volume Volume 43 (2020)
Volume Volume 42 (2019)
Volume Volume 41 (2018)
Volume Volume 40 (2017)
Fattin, S., Abd ElSalam, N., Bahaa, N., Baher, W. (2017). Effect of silica oxide nanoparticles on liver of adult male albino rat. Light and electron microscopic study. Egyptian Journal of Histology, 40(3), 345-361. doi: 10.21608/EJH.2017.4660
Shaimaa M. Fattin; Nevert Farid Abd ElSalam; Nevine Bahaa; Walaa Baher. "Effect of silica oxide nanoparticles on liver of adult male albino rat. Light and electron microscopic study". Egyptian Journal of Histology, 40, 3, 2017, 345-361. doi: 10.21608/EJH.2017.4660
Fattin, S., Abd ElSalam, N., Bahaa, N., Baher, W. (2017). 'Effect of silica oxide nanoparticles on liver of adult male albino rat. Light and electron microscopic study', Egyptian Journal of Histology, 40(3), pp. 345-361. doi: 10.21608/EJH.2017.4660
Fattin, S., Abd ElSalam, N., Bahaa, N., Baher, W. Effect of silica oxide nanoparticles on liver of adult male albino rat. Light and electron microscopic study. Egyptian Journal of Histology, 2017; 40(3): 345-361. doi: 10.21608/EJH.2017.4660

Effect of silica oxide nanoparticles on liver of adult male albino rat. Light and electron microscopic study

Article 7, Volume 40, Issue 3, September 2017, Page 345-361  XML PDF (11.85 MB)
Document Type: Original Article
DOI: 10.21608/EJH.2017.4660
Cited by Scopus (3)
View on SCiNiTO View on SCiNiTO
Authors
Shaimaa M. Fattin1; Nevert Farid Abd ElSalam1; Nevine Bahaa email 2; Walaa Baher1
1Department of Histology & Cell Biology, Faculty of Medicine, Ain Shams University, Cairo, Egypt
2Histology Department, Faculty of Medicine, Ain Shams University, Egypt
Abstract
Introduction: Silica oxide nanoparticles (SiO2NPs) have a dominant medical role because of their fundamental characteristics. They have a wide range size (from 5 to 1000 nm). They possess unique optical properties, high specific surface area, low density, adsorption capacity, capacity for encapsulation, and biocompatibility. These features led to their wide use in biomedical applications as catalyst supports, drug carriers, and gene delivery. However, little is known about their possible cytotoxic effects, especially with their wide biodistibution on different organs has been reported.
Aim of the work: To assess the effect of different doses and durations of intravenous injections of SiO2NPs on the hepatic tissue structure of adult male albino rats.
Materials and Methods: Forty Wistar male adult albino rats were divided randomly into three groups. Group I; served as control group, group II; injected with 10 mg/kg SiO2NPs for two and four weeks and group III; injected with 30 mg/kg SiO2NPs for two and four weeks. All doses were given by intravenous injection in the tail vein. At the end of the experiment, liver of all rats was dissected out and processed for histological, immunohistochemical and ultrastructure study. Morphometric measurements and statistical analysis were also performed.
Results: SiO2NPs injections didn’t affect the hepatic lobular organization in any dose or duration. However, they caused hepatocytes structural changes, hepatic granulomatous inflammatory reaction accompanied by localized fibrosis, being prominent with increasing SiO2NPs’ dose and duration of administration.
Conclusions and Recommendations: SiO2NPs could affect the liver even at small doses. This was augmented with increasing dose and duration of administration. More investigation must be done to fully elucidate the interplay between hepatocytes and other non-parenchymal hepatic cells.
Keywords
Ito cell; Kupffer cell; Liver; Pit cell; Silica oxide nanoparticle (SiO2NPs)
Statistics
Article View: 624
PDF Download: 926