Background/Objectives: Liver cancer is considered one of the most dangerous types of cancer due to both the patients’ and the physician’s delay in diagnosis. Metal/ligand complexes represent antitumor drugs; however, they have several limitations such as a lack of specificity that results in damage to healthy organs. Therefore, there is a need for a material that improves specificity and decreases side effects. Magnetite nanoparticles (MNPs) show outstanding findings in the targeting and treatment of cancer-diseased organs. Methods: Herein, a metal/ligand palladium complex with antitumor activity was prepared and loaded onto magnetite nanoparticles for the treatment of liver cancer. The proposed structures with the lowest energy geometries were identified by density functional theory (DFT) utilizing the Gaussian09 program. Molecular docking simulation was conducted on an HP Pavilion dv6 Notebook PC equipped with an AMD Phenom™ N930 Quad processor. Afterward, the prepared nano-systems were investigated using FTIR and TEM. In vitro drug release measurement was evaluated in PBS at different time intervals. Eventually, the selectivity of these nano-systems was investigated using an animal rat model. Results: The results showed that MNPs with a crystalline structure and superparamagnetic characteristics (Ms = 71.273 emu/g) were created with a large surface area (63.75 m2/g), and they were validated to be acceptable for drug delivery applications. The palladium complex Pd(DMEN)Cl2 loaded onto magnetite released highly in acidic circumstances (pH 4.5), implying that it could be employed for targeted therapy of liver cancer. Conclusions: In vivo investigations in a rat model of liver cancer induced by diethylnitrosamine and thioacetamide (DEN/TAA) showed that the combination of the palladium complex and magnetite demonstrated a potent anticancer therapeutic activity on liver cancer in rats, improving liver function and structure while mitigating inflammation.
El‐Sayed et al. (Fri,) studied this question.
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