Department of Oral Surgery and Oral Medicine, Faculty of Dentistry, Srinakharinwirot University, Wattana, Bangkok 10110, Thailand.
J Biomater Appl. 2012 Jul;27(1):47-54. doi: 10.1177/0885328210391920. Epub 2011 Feb 22.
Biomimetic gelatin (gel)-hydroxyapatite (HA) composites have been prepared for studying hard tissue engineering scaffolds. However, the biocompatibility test of this form of material using these three cell types, which are periodontal ligament (PDL) fibroblast cells, human mesenchymal stromal cells (HMSc) and primary cells from human hip bone (HBc) has never been evaluated. The objective of this article is to prepare and evaluate the biocompatibility of gel-HA crosslinked scaffold for tissue engineering. Two different scaffolds were prepared: preparation (1), 2.5% gel/2.5% HA; preparation (2), 2.5% gel/5% HA. Three cell types including PDL, HMSc, and HBc were used. Assessment of biocompatibility and osteoblastic cellular responses was evaluated using a three-dimensional cell culture method and scanning electron microscopy (SEM). From SEM, it was observed that scaffold (1) exhibits stable porous formation with well-blended and dispersed HA powder. All three cell types were able to proliferate in both scaffolds. The HMSc and HBc got attached to the scaffolds to a significantly higher degree and subsequently proliferated more than PDL. The alkaline phosphatase (ALP) activities of HMSc and HBc were stronger when cultured in scaffold (S1) than (S2). It was seen that the two scaffold preparations show good biocompatibility with all three cell types tested. The better cellular responses with scaffold (S1) than (S2) might be due to the different structural and morphological characteristics, that is, scaffold (S1) retained more small-sized apatite crystals and a better developed pore configuration than scaffold (S2). Based on these findings, the biomimetically synthesized composite scaffolds have the potential to be used in hard tissue regeneration and tissue engineering fields.
仿生明胶(gel)-羟基磷灰石(HA)复合材料已被制备用于研究硬组织工程支架。然而,使用这三种细胞类型(牙周膜(PDL)成纤维细胞、人间充质基质细胞(HMSc)和人髋骨原代细胞(HBc))对这种形式的材料进行的生物相容性测试从未被评估过。本文的目的是制备和评估用于组织工程的凝胶-HA 交联支架的生物相容性。制备了两种不同的支架:制备(1),2.5%凝胶/2.5%HA;制备(2),2.5%凝胶/5%HA。使用三种细胞类型包括 PDL、HMSc 和 HBc。使用三维细胞培养方法和扫描电子显微镜(SEM)评估生物相容性和成骨细胞反应。从 SEM 中可以观察到,支架(1)表现出稳定的多孔形成,具有良好混合和分散的 HA 粉末。所有三种细胞类型都能够在两种支架中增殖。HMSc 和 HBc 比 PDL 更能附着在支架上,并且随后增殖更多。HMSc 和 HBc 在支架(S1)中培养时的碱性磷酸酶(ALP)活性强于支架(S2)。可以看出,两种支架制备物均显示出良好的生物相容性,可用于测试的所有三种细胞类型。支架(S1)比(S2)具有更好的细胞反应可能是由于不同的结构和形态特征,即支架(S1)比支架(S2)保留了更多的小尺寸的磷灰石晶体和更好的发展的孔结构。基于这些发现,仿生合成的复合材料支架有可能用于硬组织再生和组织工程领域。
