Department of Biomedical Materials Science, School of Dentistry, University of Mississippi Medical Center, Jackson, MS 39216, USA.
Department of Oral and Craniofacial Biology, School of Dentistry, Louisiana State University Health Sciences Center, New Orleans, LA 70119, USA.
Dent Mater. 2024 Apr;40(4):728-738. doi: 10.1016/j.dental.2024.02.008. Epub 2024 Feb 24.
Guided Tissue Regeneration (GTR) is a popular clinical procedure for periodontal tissue regeneration. However, its key component, the barrier membrane, is largely collagen-based and is still quite expensive, posing a financial burden to the patients as well as healthcare systems and negatively impacting the patient's decision-making. Thus, our aim is to prepare a novel biomimetic GTR membrane utilizing a natural biomaterial, soluble eggshell membrane protein (SEP), which is economical as it comes from an abundant industrial waste from food and poultry industries, unlike collagen. Additive polymer, poly (lactic-co-glycolic acid) (PLGA), and a bioceramic, nano-hydroxyapatite (HAp), were added to improve its mechanical and biological properties.
For this barrier membrane preparation, we initially screened the significant factors affecting its mechanical properties using Taguchi orthogonal array design and further optimized the significant factors using response surface methodology. Furthermore, this membrane was characterized using SEM, EDAX, and ATR-FTIR, and tested for proliferation activity of human periodontal ligament fibroblasts (HPLFs).
Optimization using response surface methodology predicted that the maximal tensile strength of 3.1 MPa and modulus of 39.9 MPa could be obtained at membrane composition of 8.9 wt% PLGA, 7.2 wt% of SEP, and 2 wt% HAp. Optimized PLGA/SEP/HAp membrane specimens that were electrospun on a static collector showed higher proliferation activity of HPLFs compared to tissue culture polystyrene and a commercial collagen membrane.
From the results observed, we can conclude that SEP-based nanofibrous GTR membrane could be a promising, environment-friendly, and cost-effective alternative for commercial collagen-based GTR membrane products.
引导组织再生(GTR)是一种用于牙周组织再生的常用临床方法。然而,其关键组成部分,屏障膜,主要基于胶原蛋白,并且仍然相当昂贵,给患者以及医疗保健系统带来经济负担,并对患者的决策产生负面影响。因此,我们的目标是利用天然生物材料,可溶鸡蛋膜蛋白(SEP),制备一种新型仿生 GTR 膜,因为它来自食品和家禽工业的丰富工业废物,与胶原蛋白不同,因此具有经济性。添加聚合物,聚(乳酸-共-乙醇酸)(PLGA)和生物陶瓷,纳米羟基磷灰石(HAp),以改善其机械和生物性能。
为了制备这种屏障膜,我们首先使用 Taguchi 正交数组设计筛选出影响其机械性能的重要因素,并使用响应面法进一步优化重要因素。此外,还通过 SEM、EDAX 和 ATR-FTIR 对该膜进行了表征,并测试了人牙周膜成纤维细胞(HPLF)的增殖活性。
响应面法优化预测,在膜组成 8.9wt%PLGA、7.2wt%SEP 和 2wt%HAp 时,可获得最大拉伸强度 3.1MPa 和模量 39.9MPa。在静电收集器上电纺的优化的 PLGA/SEP/HAp 膜标本显示出比组织培养聚苯乙烯和商业胶原蛋白膜更高的 HPLF 增殖活性。
从观察到的结果可以得出结论,基于 SEP 的纳米纤维 GTR 膜可能是一种有前途的、环保的、具有成本效益的商业胶原蛋白基 GTR 膜产品的替代品。
