November 24, 2024

Fereshteh Ezzatighadi

Academic rank: Associate professor
Address:
Education: PhD. in -
Phone: 9111292376
Faculty:

Research

Title
68Ga radiolabeled chitosan/curcumin/biotin nanocomposite as a drug carrier and early-stage cancer detection
Type Article
Keywords
Chitosan nanocomposite MTT Flow cytometry Fluorescence 68Galliu
Researchers atena naeimi, Fereshteh Ezzatighadi, Zahra Pakdin Parizi, Mohammad Saleh Rezakhani

Abstract

Nano chitosan was extracted from shrimp wastes. Biotin, as a tumor-targeting agent, and curcumin, as potential carriers of 68Ga, were immobilized on the nano chitosan, and a novel bio-nanocomposite was designed. It was characterized by FT-IR, SEM, TEM, XRD, TGA, and elemental analysis. It seems that the chitosan has a fibril shape with an average size of 70 nm, and the biotin and curcumin are evenly distributed as obtained SEM images. While, the size of Chit/Cur@Biot bio-nanocomposite was between 10 and 20 nm according to the TEM images. Cell cytotoxicity assay, cellular uptake, and fluorescence spectroscopy on A549 lung cancer cells were performed to show the potential applications of this bio-nanocomposite. The obtained results were demonstrated that Chit/ Cur and Chit/Cur@Biot bio-nanocomposite exhibit antitumor activity, while, the Chit/Cur@Biot bio- nanocomposite is more effective than Chit/Cur against cancer cell lines at high concentrations. The results of fluoresce microscopy show that fluoresce of Chit/Cur@Biot was much stronger than Chit/Cur in the A549 cell lines. Moreover, the cellular uptake of Chit/Cur@Biot was enhanced when compared with the control group. The potentials of this bio-nanocomposite as anticancer and cancer-detecting agent in nuclear medicine were confirmed.