目的 了解行角膜胶原交联术患者围术期的体验感受,为角膜胶原交联术的顺利进行及术后康复提供参考依据。方法 采用目的抽样法,于2023年8月—2023年10月在中山大学中山眼科中心选取12例行角膜交联术的患者进行半结构式访谈,采取Colaizzi七步法进行整理分析资料。结果 通过分析得出患者在围手术期的5种感受：焦虑、疼痛、恐惧、紧张、盲目乐观。结论 分析角膜交联手术患者在围术期不同感受,做好围术期护理,希望有利于提高手术效果。

Objective To understand the perioperative experience of patients undergoing corneal collagen cross-linking surgery,and provide reference for the smooth progress of corneal collagen cross-linking surgery and postoperative rehabilitation．Methods Using purposive sampling method,12 patients who underwent corneal cross-linking surgery were selected from the Sun Yat-sen Ophthalmology Center of Sun Yat-sen University from August 2023 to October 2023 for semi-structured interviews．The data were analyzed using the Colaizzi seven step method．Results Through analysis,five feelings of patients during the perioperative period were identified：anxiety,pain,fear,tension and blind optimism．Conclusion sAnalyzing the different feelings of patients undergoing corneal cross-linking surgery during the perioperative period and providing good perioperative care can help achieve satisfactory results in the surgery．

目的 体外构建胶原—壳聚糖复合支架材料,分析其物理化学性质及生物相容性,探讨其应用于组织工程支架材料的可行性。方法 利用冷冻干燥的方法构建三维多孔的胶原支架材料,通过甲醛交联以及添加壳聚糖的方法改善其物理化学性能。通过体外降解实验以及电镜扫描的方法检测材料的各项物理化学指标;通过细胞接种的方法研究材料的生物相容性。结果 胶原—壳聚糖复合材料通过冷冻干燥的方法,能够获得稳定的三维多孔结构,电镜显示孔隙贯通,体外降解速度降低,并且能够支持细胞生长。理化性质分析显示该结构适合细胞生长,具有良好的生物相容性。结论 本课题体外构建胶原—壳聚糖复合支架材料,满足组织工程生物材料的理化以及生物相容性要求,为其应用于组织工程支架材料提供重要的依据。

Objective We build up the Collagen-Chitosan compound scaffold in vitro,and study the physical,chemical and biological properties,to analyze the feasibility in tissue engineering. Methods The three-dimensional porous scaffold was obtained by freezing-drying method,and optimized by using formaldehyde and Chitosan.We used hydrolysis in vitro and SEM scanning to investigate its physical and chemical properties.The biocompatibility of scaffold was analyzed in MEF cells. Results Collagen-Chitosan compound scaffold we obtained by freezing-drying method was a kind of stable 3D vesicular structure.The scaffold degenerated in decreased velocity in vitro.The physical and chemical properties showed that it was suitable for the cells grow in it,which suggested that it has a good biocompatibility. Conclusion This kind of Collagen-Chitosan compound scaffold is constructed.It's qualified by the physical and chemical properties,and biocompatibility which the biomaterials require.The evidence are important for its application in tissue engineering.