In Vitro Biocompatibility Assessment of Bioengineered PLA-Hydrogel Core-Shell Scaffolds with Mesenchymal Stromal Cells for Bone Regeneration.

IF 5 3区 医学 Q1 ENGINEERING, BIOMEDICAL
Federica Re, Luciana Sartore, Chiara Pasini, Matteo Ferroni, Elisa Borsani, Stefano Pandini, Andrea Bianchetti, Camillo Almici, Lorena Giugno, Roberto Bresciani, Silvia Mutti, Federica Trenta, Simona Bernardi, Mirko Farina, Domenico Russo
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引用次数: 0

Abstract

Human mesenchymal stromal cells (hMSCs), whether used alone or together with three-dimensional scaffolds, are the best-studied postnatal stem cells in regenerative medicine. In this study, innovative composite scaffolds consisting of a core-shell architecture were seeded with bone-marrow-derived hMSCs (BM-hMSCs) and tested for their biocompatibility and remarkable capacity to promote and support bone regeneration and mineralization. The scaffolds were prepared by grafting three different amounts of gelatin-chitosan (CH) hydrogel into a 3D-printed polylactic acid (PLA) core (PLA-CH), and the mechanical and degradation properties were analyzed. The BM-hMSCs were cultured in the scaffolds with the presence of growth medium (GM) or osteogenic medium (OM) with differentiation stimuli in combination with fetal bovine serum (FBS) or human platelet lysate (hPL). The primary objective was to determine the viability, proliferation, morphology, and spreading capacity of BM-hMSCs within the scaffolds, thereby confirming their biocompatibility. Secondly, the BM-hMSCs were shown to differentiate into osteoblasts and to facilitate scaffold mineralization. This was evinced by a positive Von Kossa result, the modulation of differentiation markers (osteocalcin and osteopontin), an expression of a marker of extracellular matrix remodeling (bone morphogenetic protein-2), and collagen I. The results of the energy-dispersive X-ray analysis (EDS) clearly demonstrate the presence of calcium and phosphorus in the samples that were incubated in OM, in the presence of FBS and hPL, but not in GM. The chemical distribution maps of calcium and phosphorus indicate that these elements are co-localized in the same areas of the sections, demonstrating the formation of hydroxyapatite. In conclusion, our findings show that the combination of BM-hMSCs and PLA-CH, regardless of the amount of hydrogel content, in the presence of differentiation stimuli, can provide a construct with enhanced osteogenicity for clinically relevant bone regeneration.

用于骨再生的间充质基质细胞生物工程聚乳酸-水凝胶核壳支架体外生物相容性评估
人间充质基质细胞(hMSCs)无论是单独使用还是与三维支架一起使用,都是再生医学中研究得最透彻的产后干细胞。在这项研究中,创新的复合支架由核壳结构组成,上面种有骨髓来源的hMSCs(BM-hMSCs),并对其生物相容性以及促进和支持骨再生和矿化的显著能力进行了测试。这些支架是通过将三种不同量的明胶-壳聚糖(CH)水凝胶接枝到三维打印的聚乳酸(PLA)核心(PLA-CH)中制备而成,并对其机械性能和降解性能进行了分析。在有生长培养基(GM)或成骨培养基(OM)及分化刺激物、胎牛血清(FBS)或人血小板裂解液(hPL)存在的情况下,在支架中培养 BM-hMSCs。主要目的是确定支架内 BM-hMSC 的活力、增殖、形态和扩散能力,从而确认其生物相容性。其次,研究表明,碱性骨髓造血干细胞能分化成成骨细胞,并促进支架矿化。能量色散 X 射线分析(EDS)结果清楚地表明,在有 FBS 和 hPL 的情况下,在 OM 中培养的样品中存在钙和磷,而在 GM 中则没有。钙和磷的化学分布图表明,这些元素在切片的相同区域共定位,证明了羟基磷灰石的形成。总之,我们的研究结果表明,无论水凝胶含量多少,在分化刺激下,BM-hMSCs 和 PLA-CH 的组合都能为临床相关的骨再生提供具有增强成骨性的构建物。
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来源期刊
Journal of Functional Biomaterials
Journal of Functional Biomaterials Engineering-Biomedical Engineering
CiteScore
4.60
自引率
4.20%
发文量
226
审稿时长
11 weeks
期刊介绍: Journal of Functional Biomaterials (JFB, ISSN 2079-4983) is an international and interdisciplinary scientific journal that publishes regular research papers (articles), reviews and short communications about applications of materials for biomedical use. JFB covers subjects from chemistry, pharmacy, biology, physics over to engineering. The journal focuses on the preparation, performance and use of functional biomaterials in biomedical devices and their behaviour in physiological environments. Our aim is to encourage scientists to publish their results in as much detail as possible. Therefore, there is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced. Several topical special issues will be published. Scope: adhesion, adsorption, biocompatibility, biohybrid materials, bio-inert materials, biomaterials, biomedical devices, biomimetic materials, bone repair, cardiovascular devices, ceramics, composite materials, dental implants, dental materials, drug delivery systems, functional biopolymers, glasses, hyper branched polymers, molecularly imprinted polymers (MIPs), nanomedicine, nanoparticles, nanotechnology, natural materials, self-assembly smart materials, stimuli responsive materials, surface modification, tissue devices, tissue engineering, tissue-derived materials, urological devices.
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