Wharton's jelly of the umbilical cord serves as a natural biomaterial to promote osteogenesis.

IF 5.8 3区 医学 Q1 MATERIALS SCIENCE, BIOMATERIALS
Yu-Show Fu, Shang-Wen Tsai, Zhen-Jie Tong, Chang-Ching Yeh, Tien-Hua Chen, Cheng-Fong Chen
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Abstract

Various factors can contribute to bone damage or loss, presenting challenges for bone regeneration. Our study explores the potential clinical applications of two processed forms of Wharton's jelly of the human umbilical cord for treating bone loss. Wharton's jelly from fresh umbilical cords underwent two distinct processes: (1) frozen Wharton's jelly (WJF), preserved with cryoprotective agents, and (2) decellularized Wharton's jelly matrix (WJD), prepared only via lyophilization without cryoprotectants. Both WJD and WJF are rich in collagen, hyaluronan, and polysaccharide proteins. Notably, WJD exhibited a porous structure lacking nuclei from human umbilical cord mesenchymal stem cells, unlike WJF. In direct contact experiments, WJD stimulated osteoblast migration, enhanced osteoblast maturation, and promoted calcium deposition for bone formation when administered to cultured rat osteoblasts. Furthermore, in transwell co-culture experiments, both WJD and WJF increased the rat osteoblast expression of RUNX2 and OPN genes, elevated alkaline phosphatase levels, and enhanced extracellular calcium precipitation, indicating their role in osteoblast maturation and new bone formation. Hyaluronic acid, one of the ingredients from WJD and WJF, was identified as a key component triggering osteogenesis. In vivo experiments involved creating circular bone defects in the calvarias of rats, where WJD and WJF were separately implanted and monitored over five months using micro-computerized tomography. Our results demonstrated that both WJD and WJF enhanced angiogenesis, collagen formation, osteoblast maturation, and bone growth within the bone defects. In summary, WJD and WJF, natural biomaterials with biocompatibility and nontoxicity, act not only as effective scaffolds but also promote osteoblast adhesion and differentiation, and accelerate osteogenesis.

沃顿脐带果冻是促进成骨的天然生物材料。
各种因素都可能导致骨质损伤或流失,给骨质再生带来挑战。我们的研究探讨了两种加工形式的人类脐带沃顿果冻在治疗骨质流失方面的潜在临床应用。来自新鲜脐带的沃顿果冻经过了两种不同的加工过程:(1)使用低温保护剂保存的冷冻沃顿果冻(WJF);(2)仅通过冻干法制备的脱细胞沃顿果冻基质(WJD),不使用低温保护剂。WJD 和 WJF 都富含胶原蛋白、透明质酸和多糖蛋白质。值得注意的是,与 WJF 不同,WJD 表现出多孔结构,缺乏人脐带间充质干细胞的细胞核。在直接接触实验中,WJD 可刺激成骨细胞迁移,提高成骨细胞成熟度,并促进钙沉积以形成骨。此外,在经孔共培养实验中,WJD 和 WJF 都能增加大鼠成骨细胞 RUNX2 和 OPN 基因的表达,提高碱性磷酸酶水平,并促进细胞外钙沉淀,表明它们在成骨细胞成熟和新骨形成中的作用。透明质酸是 WJD 和 WJF 的成分之一,被认为是引发骨生成的关键成分。体内实验包括在大鼠的小腿上制造圆形骨缺损,分别植入 WJD 和 WJF,并使用微型计算机断层扫描对其进行为期五个月的监测。我们的结果表明,WJD 和 WJF 都能促进骨缺损内的血管生成、胶原形成、成骨细胞成熟和骨生长。总之,WJD 和 WJF 是天然的生物材料,具有生物相容性和无毒性,不仅能作为有效的支架,还能促进成骨细胞的粘附和分化,加速骨生成。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Biomaterials Science
Biomaterials Science MATERIALS SCIENCE, BIOMATERIALS-
CiteScore
11.50
自引率
4.50%
发文量
556
期刊介绍: Biomaterials Science is an international high impact journal exploring the science of biomaterials and their translation towards clinical use. Its scope encompasses new concepts in biomaterials design, studies into the interaction of biomaterials with the body, and the use of materials to answer fundamental biological questions.
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