Synthesis and characterization of Fe0@chitosan/cellulose biocompatible composites from natural resources as advanced carriers for ibuprofen drug: reaction kinetics and equilibrium

Abukhadra Mostafa R.; El Kashief Fatma A.; Othman Sarah I.Alqhtani Haifa A.Allam Ahmed A.

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Synthesis and characterization of Fe0@chitosan/cellulose biocompatible composites from natural resources as advanced carriers for ibuprofen drug: reaction kinetics and equilibrium

机译：Synthesis and characterization of Fe0@chitosan/cellulose biocompatible composites from natural resources as advanced carriers for ibuprofen drug: reaction kinetics and equilibrium

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Green nanocomposites of Fe0@chitosan/cellulose (Fe0@CH/CS) were synthesized utilizing a green extract of Khaya senegalensis leaves and sugarcane bagasse as a cellulose precursor. The composite was evaluated as an effective carrier for ibuprofen drug (IBF) considering its release and loading properties. The Fe0@CH/CS composite has a significant IBF loading capacity of 553 mg g−1, and the loading behavior can be directed by the values of the experimental variables. The loading of IBF into Fe0@CH/CS is in agreement with the classic Langmuir isotherm (R2 > 0.95) and pseudo-first-order kinetic (R2 > 0.97). This displays homogeneity, physisorption, and monolayer loading of IBF into Fe0@CH/CS. Based on the findings of the monolayer model with one energy as an advanced isotherm model, the Fe0@CH/CS structure has 252.6 mg g−1 active receptor density and each receptor is occupied by two or three IBF ions (n = 2.18) via a multi-molecular mechanism. The determined IBF loading energy (4.81 kJ mol−1) demonstrates the physical loading of the drug by van der Waals forces and/or hydrogen bonding. The Fe0@CH/CS structure has significant release profiles as a carrier for IBF, which continued up to 260 h (gastric buffer) and 180 h (intestinal buffer). The studied release kinetics and the obtained diffusion exponent (0.58 (pH 1.2) and 0.48 (pH 7.4)) reflect the release of IBF from Fe0@CH/CS by complex diffusion and erosion mechanisms. The cytotoxicity tests declared the safety and biocompatibility of both Fe0@CH/CS and IBF-loaded Fe0@CH/CS in human bronchial epithelial cells.

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《New Journal of Chemistry》 |2022年第26期|12797-12807|共11页
作者
Abukhadra Mostafa R.; El Kashief Fatma A.; Othman Sarah I.Alqhtani Haifa A.Allam Ahmed A.;
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作者单位

Beni-Suef University;

Princess Nourah bint Abdulrahman University;

Department of Zoology, Faculty of Science, Beni-Suef University;

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正文语种英语
中图分类化学;
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Synthesis and characterization of Fe0@chitosan/cellulose biocompatible composites from natural resources as advanced carriers for ibuprofen drug: reaction kinetics and equilibrium

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