用于鼻再造软骨组织工程的纤维蛋白-京尼平水凝胶
Fibrin-Genipin Hydrogel for Cartilage Tissue Engineering in Nasal Reconstruction.
作者信息
Gupta Nikita, Cruz Michelle A, Nasser Philip, Rosenberg Joshua D, Iatridis James C
机构信息
1 Department of Otolaryngology, Icahn School of Medicine at Mount Sinai, New York, NY, USA.
2 Department of Otolaryngology-Head and Neck Surgery, University of Kentucky Medical Center, Lexington, KY, USA.
出版信息
Ann Otol Rhinol Laryngol. 2019 Jul;128(7):640-646. doi: 10.1177/0003489419836667. Epub 2019 Mar 12.
OBJECTIVES
Nasal reconstruction is limited by the availability of autologous cartilage. The aim is to investigate an adhesive biomaterial for tissue engineering of nasal cartilage by evaluating mechanical properties of hydrogels made of fibrin crosslinked with genipin as compared to native tissue.
METHODS
Hydrogels of fibrin, fibrin-genipin, and fibrin-genipin with extracellular matrix (ECM) particles were created and evaluated with mechanical testing to determine compression, tensile, and shear properties. Rabbit nasal septal cartilage was harvested and tested in these modalities for comparison. Transmission electron microscopy characterized hydrogel structure.
RESULTS
Fibrin-genipin gels had higher compressive, tensile, and shear moduli compared to fibrin alone or fibrin-genipin with ECM. However, all hydrogel formulations had lower moduli than the rabbit nasal septal cartilage. Electron microscopy showed genipin crosslinking increased structural density of the hydrogel and that cartilage ECM created larger structural features with lower crosslinking density.
CONCLUSION
The addition of genipin significantly improved mechanical properties of fibrin hydrogels by increasing the compressive, tensile, and shear moduli. The addition of cartilage ECM, which can add native structure and composition, resulted in decreased moduli values. Fibrin-genipin is a bioactive and biomechanically stable hydrogel that may offer promise as a scaffold for cartilage tissue engineering in nasal reconstruction, yet further augmentation is required to match material properties of native nasal cartilage.
目的
鼻再造受自体软骨可用性的限制。本研究旨在通过评估与天然组织相比,由京尼平交联的纤维蛋白制成的水凝胶的力学性能,来研究一种用于鼻软骨组织工程的粘附性生物材料。
方法
制备纤维蛋白、纤维蛋白-京尼平以及含有细胞外基质(ECM)颗粒的纤维蛋白-京尼平水凝胶,并通过力学测试评估其压缩、拉伸和剪切性能。采集兔鼻中隔软骨并进行这些模式的测试以作比较。透射电子显微镜对水凝胶结构进行表征。
结果
与单独的纤维蛋白或含有ECM的纤维蛋白-京尼平相比,纤维蛋白-京尼平凝胶具有更高的压缩模量、拉伸模量和剪切模量。然而,所有水凝胶配方的模量均低于兔鼻中隔软骨。电子显微镜显示,京尼平交联增加了水凝胶的结构密度,而软骨ECM形成了具有较低交联密度的更大结构特征。
结论
添加京尼平通过增加压缩模量、拉伸模量和剪切模量,显著改善了纤维蛋白水凝胶的力学性能。添加软骨ECM可增加天然结构和成分,但会导致模量值降低。纤维蛋白-京尼平是一种生物活性和生物力学稳定的水凝胶,有望作为鼻再造中软骨组织工程的支架,但仍需要进一步改进以匹配天然鼻软骨的材料性能。
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