期刊
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
卷 24, 期 8, 页码 -出版社
MDPI
DOI: 10.3390/ijms24087023
关键词
electrospinning; drug delivery; postoperative therapy
Synchronous control of disease and regeneration progression is necessary for lesioned tissue after surgery, and therapeutic and regenerative scaffolds need to be developed. Electrospun hyaluronic acid derivative nanofiber membranes can promote the potential regeneration of injured skin tissues and achieve therapeutic effects when incorporated with drugs.
Lesioned tissue requires synchronous control of disease and regeneration progression after surgery. It is necessary to develop therapeutic and regenerative scaffolds. Here, hyaluronic acid (HA) was esterified with benzyl groups to prepare hyaluronic acid derivative (HA-Bn) nanofibers via electrospinning. Electrospun membranes with average fiber diameters of 407.64 +/- 124.8 nm (H400), 642.3 +/- 228.76 nm (H600), and 841.09 +/- 236.86 nm (H800) were obtained by adjusting the spinning parameters. These fibrous membranes had good biocompatibility, among which the H400 group could promote the proliferation and spread of L929 cells. Using the postoperative treatment of malignant skin melanoma as an example, the anticancer drug doxorubicin (DOX) was encapsulated in nanofibers via hybrid electrospinning. The UV spectroscopy of DOX-loaded nanofibers (HA-DOX) revealed that DOX was successfully encapsulated, and there was a pi-pi interaction between aromatic DOX and HA-Bn. The drug release profile confirmed the sustained release of about 90%, achieved within 7 days. In vitro cell experiments proved that the HA-DOX nanofiber had a considerable inhibitory effect on B16F10 cells. Therefore, the HA-Bn electrospun membrane could facilitate the potential regeneration of injured skin tissues and be incorporated with drugs to achieve therapeutic effects, offering a powerful approach to developing therapeutic and regenerative biomaterial.
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