华氏胶/水凝胶联合软骨细胞修复人脐带软骨损伤。

IF 2.7 4区 医学 Q3 CELL & TISSUE ENGINEERING Tissue engineering. Part C, Methods Pub Date : 2023-03-01 DOI:10.1089/ten.tec.2022.0202
Jianhua Yang, Ying Zhao, Lei Fan, Cao Gao, Xuejian Liu, Xiaoguang Jing, Hongjun Zhang, Yong Huang, Rui Guo, Canling Long, Quanyi Guo, Jia Liu
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引用次数: 0

摘要

目的:软骨损伤的有效治疗方法尚缺乏。软骨组织工程是一种很有前途的治疗方法。人脐带华氏胶(HUCWJ)和水凝胶作为组织工程的支架材料受到了广泛的关注。由于其有效性和安全性仍存在争议,尚未广泛应用于临床研究。本研究系统比较了这两种生物组织工程材料在体内携带软骨细胞修复软骨损伤的能力。方法:将软骨细胞与huwj或水凝胶共培养,进行体内移植。处理分为HUCWJ+细胞组、水凝胶+细胞组和空白组。建立兔膝关节区关节软骨缺损模型。各组兔膝关节软骨缺损治疗3、6个月。采用免疫组织化学和生化指标评价不同治疗方法对关节软骨损伤的疗效。结果:我们发现与空白组相比,HUCWJ+细胞组和水凝胶+细胞组促进了软骨的修复,而空白组没有修复作用。各组治疗6个月时疗效显著优于3个月时。HUCWJ比水凝胶具有更快的软骨修复能力。结论:本研究表明,HUCWJ可用于软骨组织工程,增强基于软骨细胞的软骨修复效果,为再生医学提供新的见解。人类脐带沃顿氏胶(HUCWJ)和水凝胶是适合软骨组织工程的细胞外基质。本研究评估了huwj -和水凝胶负载的软骨细胞在体内修复软骨损伤的能力。数据表明,HUCWJ和水凝胶均能有效促进软骨修复,且HUCWJ的修复效果明显优于水凝胶,为软骨再生治疗的临床实践提供了潜在的候选材料。
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Cartilage Injury Repair by Human Umbilical Cord Wharton's Jelly/Hydrogel Combined with Chondrocyte.

Purpose: There is still a lack of effective treatments for cartilage damage. Cartilage tissue engineering could be a promising treatment method. Human umbilical cord Wharton's jelly (HUCWJ) and hydrogels have received wide attention as a scaffold for tissue engineering. They have not been widely used in clinical studies as their effectiveness and safety are still controversial. This study systematically compared the ability of these two biological tissue engineering materials to carry chondrocytes to repair cartilage injury in vivo. Methods: Chondrocytes were cocultured with HUCWJ or hydrogel for in vivo transplantation. The treatments comprised the HUCWJ+cell, hydrogel+cell, and blank groups. A rabbit model with articular cartilage defect in the knee joint area was established. The defective knee cartilage of different rabbit groups was treated for 3 and 6 months. The efficacy of the various treatments on articular cartilage injury was evaluated by immunohistochemistry and biochemical indices. Results: We found that the HUCWJ+cell and hydrogel+cell groups promoted cartilage repair compared with the blank group, which had no repair effect. The treatment efficacy of each group at 6 months was significantly better than that at 3 months. HUCWJ showed accelerated cartilage repair ability than the hydrogel. Conclusion: This study showed that HUCWJ is useful in cartilage tissue engineering to enhance the efficacy of chondrocyte-based cartilage repair, providing new insights for regenerative medicine. Impact statement Human umbilical cord Wharton's jelly (HUCWJ) and hydrogel are the suitable extracellular matrix for cartilage tissue engineering. This study assessed the capacity of HUCWJ- and hydrogel-loaded chondrocytes to repair cartilage injury in vivo. The data demonstrate that both HUCWJ and hydrogel effectively facilitated cartilage repair, and the repair effects of HUCWJ were significantly better compared with hydrogel, therefore providing a potential candidate for clinical practice of cartilage regeneration therapy.

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来源期刊
Tissue engineering. Part C, Methods
Tissue engineering. Part C, Methods Medicine-Medicine (miscellaneous)
CiteScore
5.10
自引率
3.30%
发文量
136
期刊介绍: Tissue Engineering is the preeminent, biomedical journal advancing the field with cutting-edge research and applications that repair or regenerate portions or whole tissues. This multidisciplinary journal brings together the principles of engineering and life sciences in the creation of artificial tissues and regenerative medicine. Tissue Engineering is divided into three parts, providing a central forum for groundbreaking scientific research and developments of clinical applications from leading experts in the field that will enable the functional replacement of tissues. Tissue Engineering Methods (Part C) presents innovative tools and assays in scaffold development, stem cells and biologically active molecules to advance the field and to support clinical translation. Part C publishes monthly.
期刊最新文献
An Optimized Protocol for Multiple Immunohistochemical Staining of Fragile Tissue Samples. Design of an Innovative Method for Measuring the Contractile Behavior of Engineered Tissues. Enhancing Gingival-Derived Mesenchymal Stem Cell Potential in Tissue Engineering and Regenerative Medicine Through Paraprobiotics. Simple Methodology to Score Micropattern Quality and Effectiveness. Autoinduction-Based Quantification of In Situ TGF-β Activity in Native and Engineered Cartilage.
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