5FU-loaded PCL/Chitosan/Fe₃O₄ Core-Shell Nanofibers Structure: An Approach to Multi-Mode Anticancer System

Mehdi Hadjianfar ¹ * , Dariush Semnani ¹ , Jaleh Varshosaz ² , Sajad Mohammadi ³, Sayed Pedram Rezazadeh Tehrani ¹

Cited by CrossRef: 5

1- Ercelik M, Tekin C, Parin F, Mutlu B, Dogan H, Tezcan G, Aksoy S, Gurbuz M, Yildirim K, Bekar A, Kocaeli H, Taskapilioglu M, Eser P, Tunca B. Co-loading of Temozolomide with Oleuropein or rutin into polylactic acid core-shell nanofiber webs inhibit glioblastoma cell by controlled release. International Journal of Biological Macromolecules. 2023;253:126722 [Crossref]

2- Kaur M, Sharma A, Puri V, Aggarwal G, Maman P, Huanbutta K, Nagpal M, Sangnim T. Chitosan-Based Polymer Blends for Drug Delivery Systems. Polymers. 2023;15(9):2028 [Crossref]

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4- Alabrahim O, Azzazy H. Synergistic anticancer effect of Pistacia lentiscus essential oils and 5-Fluorouracil co-loaded onto biodegradable nanofibers against melanoma and breast cancer. Discover Nano. 2024;19(1) [Crossref]

5- Cordoba A, Guernelli M, Montalti M, Saldías C, Focarete M, Leiva A. Nanofibers of chitosan-polycaprolactone blends as active support for photocatalytic nanoparticles: Outstanding role of chitosan in the degradation of an organic dye in water. International Journal of Biological Macromolecules. 2023;253:127111 [Crossref]

6- Taokaew S, Chuenkaek T. Developments of Core/Shell Chitosan-Based Nanofibers by Electrospinning Techniques: A Review. Fibers. 2024;12(3):26 [Crossref]

7- Rekha K, Ezhil Vizhi R, Lahiri B, Philip J. Synthesis, physico-chemical properties, and AC induction heating of polycaprolactone-coated bio-compatible Fe3O4 nanoparticles. Inorganic Chemistry Communications. 2024;:112466 [Crossref]

8- Huner K, Sarac B, Yüce E, Rezvan A, Micusik M, Omastova M, Eckert J, Sarac A. Iron oxide – poly(m-anthranilic acid)–poly(ε-caprolactone) electrospun composite nanofibers: fabrication and properties. Mol Syst Des Eng. 2023;8(3):394 [Crossref]