利用电纺丝技术制造的可植入塞来昔布纳米纤维:制备与表征。

Nanomedicine (London, England) Pub Date : 2024-04-01 Epub Date: 2024-02-02 DOI:10.2217/nnm-2023-0314
Geng Lu, Chuangzan Yang, Kedi Chu, Yi Zhu, Sa Huang, Juying Zheng, Huanhuan Jia, Xiaofang Li, Junfeng Ban
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引用次数: 0

摘要

背景:骨关节炎会对关节造成巨大损害,降低生活质量,并带来沉重的经济负担。植入式给药系统能以低剂量和低频率改善症状表现。然而,游离药物在关节腔内的存留时间较短。材料与方法:本研究利用静电纺丝技术创建了一种植入式给药系统,其中装载了塞来昔布(塞来昔布纳米纤维 [Cel-NFs]),以提高药物的保留率和生物利用度。研究结果塞来昔布纳米纤维具有良好的成型性、亲水性和拉伸性。Cel-NFs 能够持续释放药物 2 周,并能提高 Raw 264.7 细胞的吸收能力,最终改善骨关节炎大鼠的症状。结论这些结果表明,Cel-NFs 能有效改善软骨损伤、减轻关节疼痛并缓解骨关节炎的进展。
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Implantable celecoxib nanofibers made by electrospinning: fabrication and characterization.

Background: Osteoarthritis causes tremendous damage to the joints, reducing the quality of life and imposing significant financial burden. An implantable drug-delivery system can improve the symptomatic manifestations with low doses and frequencies. However, the free drug has short retention in the joint cavity. Materials & methods: This study used electrostatic spinning technology to create an implantable drug-delivery system loaded with celecoxib (celecoxib nanofibers [Cel-NFs]) to improve retention and bioavailability. Results: Cel-NFs exhibited good formability, hydrophilicity and tensile properties. Cel-NFs were able to continuously release drugs for 2 weeks and increase the uptake capacity of Raw 264.7 cells, ultimately ameliorating symptoms in osteoarthritis rats. Conclusion: These results suggest that Cel-NFs can effectively ameliorate cartilage damage, reduce joint pain and alleviate osteoarthritis progression.

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