Synthesis and Characterization of Mg-hydroxyapatite and Its Cellulose Hybridized Structure As Enhanced Bio-carrier of Oxaliplatin Drug; Equilibrium and Release Kinetics

Overview

Journal RSC Adv

Publisher Royal Society of Chemistry

Specialty Chemistry

Date 2023 Oct 18

PMID 37849691

Authors

Alaa T Okasha

Ahmed A Abdel-Khalek

Hassan Ahmed Rudayni

Wail Al Zoubi

Haifa E Alfassam

Ahmed A Allam

Mostafa R Abukhadra

Affiliations

Soon will be listed here.

Abstract

An advanced form of magnesium-doped hydroxyapatite (Mg HAP) was synthesized and hybridized with cellulose fibers, producing a safe biocomposite (CF/Mg HAP) as an enhanced delivery structure of traditional oxaliplatin (OXPN) chemotherapy drug during the treatment stages of colorectal cancer. The qualifications of CF/Mg HAP as a carrier for OXPN were followed based on loading, release, and cytotoxicity as compared to Mg HAP. The CF/Mg HAP composite exhibits a notably higher OXPN encapsulation capacity (256.2 mg g) than the Mg HAP phase (148.9 mg g). The OXPN encapsulation process into CF/Mg HAP displays the isotherm behavior of the Langmuir model ( = 0.99) and the kinetic assumptions of pseudo-first-order kinetics ( > 0.95). The steric studies reflect a strong increment in the quantities of the free sites after the cellulose hybridization steps (Nm = 178.58 mg g) as compared to pure Mg HAP (Nm = 69.39 mg g). Also, the capacity of each site was enhanced to be loaded by 2 OXPN molecules ( = 1.43) in a vertical orientation. The OXPN encapsulation energy into CF/Mg HAP (<40 kJ mol) reflects physical encapsulation reactions involving van der Waals forces and hydrogen bonding. The OXPN release profiles of CF/Mg HAP exhibit slow and controlled properties for about 100 h, either at pH 5.5 or pH 7.4. The release kinetics and diffusion exponent (>0.45) signify non-Fickian transport and a complex erosion/diffusion release mechanism. The free CF/Mg HAP particles display a considerable cytotoxic effect on the HCT-116 cancer cells (21.82% cell viability), and their OXPN-loaded product shows a strong cytotoxic effect (1.85% cell viability).

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