December 4, 2024
Ahmad Shadi

Ahmad Shadi

Academic Rank: Assistant professor
Address:
Degree: Ph.D in Biology
Phone: 07731222424
Faculty: Faculty of Nano and Biotechnology

Research

Title
Use of Chaetoceros diatom as a targeted carrier of anticancer drug to Raji cells
Type Thesis
Keywords
دارورساني، نانوحاملها، دياتوم، راجي، سرطان
Researchers ghazal salari (Student) , Ahmad Shadi (Primary advisor) , Amirhossein Ahmadi (Primary advisor) , Javid Esfandiari (Advisor) , Hossein Nikmanesh (Advisor)

Abstract

Background: Nanoparticles of biological origin as targeted drug delivery is one of the strategies that have been considered in recent years to improve the effects of anticancer drugs. Unicellular diatom microalgae are a promising source of bioporous silica. Aim: This research was conducted with the aim of investigating the efficiency of diatom chitocerus siliceous shell as a carrier loaded by antibody and doxorubicin drug on Raji cells (type B lymphoid cells). Methodology: Porous bio-silica was cleaned and prepared using diatom chitocerus shell using distilled water, hydrogen peroxide and hydrochloric acid. Surface modification was done under argon conditions with GPTMS material. Then, doxorubicin drug was loaded on the modified biosilica and anti-CD19 antibody was attached to Raji cells for targeted binding. Characterization, stability, volume and porosity evaluation, zeta potential and particle size, drug loading and investigation of the designed drug delivery system using TGA test, X-ray diffraction spectrometer (XRD), BET analysis, Zeta Analyzer, DLS, optical microscope and invert fluorescent, Fourier transform infrared (FT-IR) and ultraviolet-visible spectroscopy (UV-Vis) were performed. The ability of the nanocarrier to kill Raji target cells was investigated by the MTT cytotoxicity test. Jorket cell was used as a non-target cell to compare and evaluate the targeted drug delivery system. Conclusions: The results of this research show that the modified silica structure has a special ability in targeted drug delivery. So that the loaded antibody causes more concentrated binding and release in the target cells, which increases efficiency and reduces side effects. Further research is suggested to investigate the biocompatibility of carriers based on diatoms in vivo.