The work was focused on the synthesis and characterization of the chitosan-g-Huorescein (CHFL) conjugate polymer as a biocompatible amphophilic water-soluble photosensitizer, able to stimulate hydroxyapatite deposition upon visible light irradiation. Fluorescein (FL) grafting to chitosan (CH) chains was confirmed by UV-vis analysis of water solutions of FL and CHFL and by Fourier transform infrared spectroscopy (FTIR-ATR) analysis of CHFL and CH. Smooth CHFL cast films with 4 μm thickness were obtained by solvent casting. Continuous exposure to visible light for 7 days was found to activate the deposition of calcium phosphate crystals from a conventional simulated body fluid (SBF 1,0x) on the surface of CHFL cast films. EDX and FTIR-ATR analyses confirmed the apatite nature of the deposited calcium phosphate crystals. CHFL Alms preincubated in SBF (1.0x) solution under visible light irradiation and in the dark for 7 days were found to support the in vitro adhesion and proliferation of MG63 osteoblast-like cells (MTT viability test; I -3 days culture time). On the other hand, the mineralization ability of MG63 osteoblast-like cells was significantly improved on CHFL films preincubated under visible light exposure (alkaline phosphatase activity (ALP) test for 1, 3, 7, and 14 days). The use of photoactive biocompatible conjugate polymer, such as CHFL, may lead to new therapeutic options in the field of bone/dental repair, exploiting the photoexcitation mechanism as a tool for biomineralization.
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机译:这项工作的重点是作为生物相容性两亲性水溶性光敏剂的壳聚糖-g-Huorescein(CHFL)共轭聚合物的合成和表征,它能够在可见光照射下刺激羟基磷灰石沉积。荧光素(FL)接枝到壳聚糖(CH)链已通过FL和CHFL水溶液的紫外可见分析以及CHFL和CH的傅里叶变换红外光谱(FTIR-ATR)分析得到证实。通过溶剂流延获得具有4μm厚度的光滑的CHFL流延膜。发现连续暴露于可见光7天可激活传统的模拟体液(SBF 1,0x)在CHFL流延膜表面上沉积磷酸钙晶体。 EDX和FTIR-ATR分析证实了沉积的磷酸钙晶体的磷灰石性质。发现在SBF(1.0x)溶液中在可见光照射下和在黑暗中预孵育的CHFL Alms可以支持MG63成骨细胞样细胞的体外粘附和增殖(MTT生存力测试; I -3天培养时间)。另一方面,在可见光暴露下预孵育的CHFL膜上(碱性磷酸酶活性(ALP)测试1、3、7和14天),MG63成骨样细胞的矿化能力显着提高。利用光激发机制作为生物矿化的工具,光活性生物相容性共轭聚合物(例如CHFL)的使用可能导致骨骼/牙齿修复领域的新治疗选择。
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