Division of Plastic Surgery, Department of Surgery, Kaohsiung Medical University Hospital, Kaohsiung City, Taiwan.
Department of Surgery, Faculty of Medicine, College of Medicine, Kaohsiung Medical University, Kaohsiung City, Taiwan.
Int J Med Sci. 2021 Mar 25;18(10):2217-2227. doi: 10.7150/ijms.56342. eCollection 2021.
Augmentative and reconstructive rhinoplasty surgical procedures use autologous tissue grafts or synthetic grafts to repair the nasal defect and aesthetic reconstruction. Donor site trauma and morbidity are common in autologous grafts. The desperate need for the production of grafted 3D cartilage tissues as rhinoplasty grafts without the adverse effect is the need of the hour. In the present study, we developed a bioactive 3D histotypic construct engineered with the various ratio of adipose-derived stem cells (ADSC) and chondrocytes together with decellularized porcine nasal cartilage graft (dPNCG). We decellularized porcine nasal cartilage using supercritical carbon dioxide (SCCO2) extraction technology. dPNCG was characterized by H&E, DAPI, alcian blue staining, scanning electron microscopy and residual DNA content, which demonstrated complete decellularization. 3D histotypic constructs were engineered using dPNCG, rat ADSC and chondrocytes with different percentage of cells and cultured for 21 days. dPNCG together with 100% chondrocytes produced a solid mass of 3D histotypic cartilage with significant production of glycosaminoglycans. H&E and alcian blue staining showed an intact mass, with cartilage granules bound to one another by extracellular matrix and proteoglycan, to form a 3D structure. Besides, the expression of chondrogenic markers, type II collagen, aggrecan and SOX-9 were elevated indicating chondrocytes cultured on dPNCG substrate facilitates the synthesis of type II collagen along with extracellular matrix to produce 3D histotypic cartilage. To conclude, dPNCG is an excellent substrate scaffold that might offer a suitable environment for chondrocytes to produce 3D histotypic cartilage. This engineered 3D construct might serve as a promising future candidate for cartilage tissue engineering in rhinoplasty.
增强和重建鼻整形手术使用自体组织移植物或合成移植物来修复鼻缺损和美学重建。自体移植物的供体部位创伤和发病率很常见。迫切需要生产作为鼻整形移植物的 3D 软骨组织,而没有不良影响,这是当前的需要。在本研究中,我们使用不同比例的脂肪来源干细胞(ADSC)和软骨细胞与脱细胞猪鼻软骨移植物(dPNCG)一起开发了具有生物活性的 3D 组织型构建物。我们使用超临界二氧化碳(SCCO2)提取技术对猪鼻软骨进行脱细胞处理。dPNCG 通过 H&E、DAPI、阿利新蓝染色、扫描电子显微镜和残留 DNA 含量进行了表征,结果表明完全脱细胞化。使用 dPNCG、大鼠 ADSC 和软骨细胞以不同百分比的细胞工程 3D 组织型构建物,并培养 21 天。dPNCG 与 100%软骨细胞产生了具有显著糖胺聚糖产生的 3D 组织型软骨的固体块状物。H&E 和阿利新蓝染色显示出完整的块状物,软骨颗粒通过细胞外基质和蛋白聚糖相互结合,形成 3D 结构。此外,软骨形成标志物 II 型胶原、聚集蛋白聚糖和 SOX-9 的表达升高表明,在 dPNCG 基质上培养的软骨细胞有利于 II 型胶原和细胞外基质的合成,从而产生 3D 组织型软骨。总之,dPNCG 是一种优秀的基质支架,可为软骨细胞产生 3D 组织型软骨提供合适的环境。这种工程 3D 构建物可能成为鼻整形术软骨组织工程的有前途的候选物。
