Nephrotoxicopathology properties of gold and iron oxide nanoparticles with Perchloric Acid & SiPEG as radiographic contrast media

Introduction: Exponential research and development of nanotechnology has lead to its implementation in medical line such as radiographic imaging. In current practice, iodine is clinically used as a contrast media in radiographic analyses. However, contraindication of iodine to kidney in clinical practice warrants for a better contrast enhancer with lower toxicity. Gold nanoparticles (GNPs) and Iron Oxide nanoparticles (IONPs) have been proposed as potential iodine’s substitute due to their novel biocompatibility. Methods: In accordance with technology-driven toxicity impact, an animal modeling study has been conducted to assess the nephrotoxicopathology of GNPs and IONPs with Perchloric Acid and SiPEG by biochemical study, in-depth tissue examination by histopathology, apoptosis, and ultrastructural observation, and molecular analysis by Comet Assay. Results: Renal function test (RFT) revealed significant alteration in iodine group compared to nanoparticles and negative control group (p<0.05). Reactive oxygen species (ROS) generation and lipid peroxidation (MDA) levels demonstrated significant reduction in both nanoparticles’ groups compared to iodine (p<0.05), suggesting for lower oxidative stress induction. Morphological aberration demonstrated by histology and ultrastructural evaluation (TEM) showed a distortion in kidney tissues and nucleus’ structure of iodine-administered group as compared to control and nanoparticles’ group. Apoptosis detection by TUNEL assay for GNPs and IONPs group also revealed a significant reduction in apoptotic cells compared to iodine group. Comet assay revealed significant reduction in DNA damaging effect of GNPs and IONPs group compared to iodine group. Conclusion: The present study may postulate that GNPs and IONPs show better contrast enhancer properties with lesser toxic properties than iodine.

Text Nephrotoxicopathology properties of gold and iron oxide nanoparticles....pdf Download (963kB) Official URL or Download Paper: https://medic.upm.edu.my/jurnal_kami/volume_17_202...

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