Comparative Analysis of Hydrogels From Porcine Extracellular Matrix for 3D Bioprinting of Adipose Tissue

IF 3.9 3区医学 Q2 ENGINEERING, BIOMEDICAL

Journal of biomedical materials research. Part A Pub Date : 2025-04-01 DOI:10.1002/jbm.a.37832

Leonie Füge, Felix Schüssler, Jamina Gerhardus, Roxana Schwab, Gregory Harms, Annette Hasenburg, Andreas Blaeser, Walburgis Brenner, Katharina Peters

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Abstract

The extracellular matrix (ECM) is the natural scaffold of all soft tissues in tissue engineering. Of special interest is the use of ECM as a hydrogel, which can be used to enclose cells and to be molded into any form by 3D bioprinting. Protocols for the preparation of ECM vary in the use of physical and chemical processing steps, the use of different detergents for decellularization, and the removal of DNA and RNA residues and show a different use of solvents and wash buffers. We have, therefore, compared seven different variations for the decellularization of a primary porcine isolate to manufacture decellularized adipose tissue (DAT) for their use in adipose tissue engineering and as a hydrogel in particular. Decellularization efficacy was assessed by DNA quantification while retention of ECM components was evaluated by measuring the content of hydroxyproline and glycosaminoglycan (GAGs). Depending on the decellularization protocol, the composition and DNA content of the resulting DAT were different. All DAT samples were processed into hydrogels to assess their mechanical properties as well as their influence on cellular metabolic activity and cell differentiation. The different compositions of the DAT and the resulting hydrogels had an effect on the stability and printability of the gels. Some DAT that were digested with hydrochloric acid (HCl) were more stable than those that were digested with acetic acid (AA). In addition, depending on the protocol, there was a clear effect on adipose-derived stem cells (ASC), endothelial cells and fibroblasts, cultured with the hydrogels. The differentiation of ASC to adipocytes could be achieved on most of the hydrogels. Human dermal microvascular endothelial cells (HDMEC) showed significantly better metabolic activity on hydrogels digested with HCl than digested with AA. HDMEC cultured on hydrogel #2 digested with HCl showed a 40% higher metabolic activity compared to collagen as a positive control, whereas culturing HDMEC on hydrogel #2 digested with AA resulted in a cellular metabolic activity loss of 60%. In a triculture of all three cell types, the formation of first tubular networks by HDMEC was achieved depending on the hydrogel used.

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猪细胞外基质水凝胶用于脂肪组织3D生物打印的对比分析

细胞外基质（ECM）是组织工程中各种软组织的天然支架。特别令人感兴趣的是ECM作为水凝胶的使用，它可以用来包裹细胞，并通过3D生物打印被塑造成任何形式。ECM的制备方案在物理和化学处理步骤的使用，使用不同的洗涤剂进行脱细胞，去除DNA和RNA残基以及使用不同的溶剂和洗涤缓冲液方面有所不同。因此，我们比较了原代猪分离物脱细胞的七种不同变体，以制造脱细胞脂肪组织（DAT），用于脂肪组织工程，特别是作为水凝胶。脱氧核糖核酸（DNA）定量评价脱细胞效果，羟脯氨酸（hydroxyproline）和糖胺聚糖（glycosaminoglycan, GAGs）含量测定ECM组分保留率。根据脱细胞方案，所得DAT的组成和DNA含量是不同的。所有DAT样品都被加工成水凝胶，以评估它们的力学性能以及它们对细胞代谢活性和细胞分化的影响。不同组成的DAT和所得到的水凝胶对凝胶的稳定性和可打印性有影响。盐酸（HCl）消化的部分DAT比醋酸（AA）消化的DAT更稳定。此外，根据不同的方案，水凝胶对脂肪来源的干细胞（ASC）、内皮细胞和成纤维细胞有明显的影响。大多数水凝胶均可使ASC向脂肪细胞分化。人皮肤微血管内皮细胞（HDMEC）在盐酸消化的水凝胶上的代谢活性显著高于AA消化的水凝胶。在HCl消化的水凝胶#2上培养的HDMEC的代谢活性比胶原蛋白（阳性对照）高40%，而在AA消化的水凝胶#2上培养的HDMEC导致细胞代谢活性损失60%。在所有三种细胞类型的三培养中，根据所使用的水凝胶的不同，HDMEC可以形成第一管状网络。

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来源期刊

Journal of biomedical materials research. Part A 工程技术-材料科学：生物材料

CiteScore

10.40

自引率

2.00%

发文量

135

审稿时长

3.6 months

期刊介绍： The Journal of Biomedical Materials Research Part A is an international, interdisciplinary, English-language publication of original contributions concerning studies of the preparation, performance, and evaluation of biomaterials; the chemical, physical, toxicological, and mechanical behavior of materials in physiological environments; and the response of blood and tissues to biomaterials. The Journal publishes peer-reviewed articles on all relevant biomaterial topics including the science and technology of alloys,polymers, ceramics, and reprocessed animal and human tissues in surgery,dentistry, artificial organs, and other medical devices. The Journal also publishes articles in interdisciplinary areas such as tissue engineering and controlled release technology where biomaterials play a significant role in the performance of the medical device. The Journal of Biomedical Materials Research is the official journal of the Society for Biomaterials (USA), the Japanese Society for Biomaterials, the Australasian Society for Biomaterials, and the Korean Society for Biomaterials. Articles are welcomed from all scientists. Membership in the Society for Biomaterials is not a prerequisite for submission.