An extracellular matrix hydrogel from porcine urinary bladder for tissue engineering: In vitro and in vivo analyses.

IF 1 4区 医学 Q4 ENGINEERING, BIOMEDICAL
German Jiménez-Gastélum, Rosalío Ramos-Payán, Jorge López-Gutierrez, Alfredo Ayala-Ham, Erika Silva-Benítez, Mercedes Bermúdez, José Geovanni Romero-Quintana, Guzman Sanchez-Schmitz, Maribel Aguilar-Medina
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引用次数: 1

Abstract

Background: The necessity to manufacture scaffolds with superior capabilities of biocompatibility and biodegradability has led to the production of extracellular matrix (ECM) scaffolds. Among their advantages, they allow better cell colonization, which enables its successful integration into the hosted tissue, surrounding the area to be repaired and their formulations facilitate placing it into irregular shapes. The ECM from porcine urinary bladder (pUBM) comprises proteins, proteoglycans and glycosaminoglycans which provide support and enable signals to the cells. These properties make it an excellent option to produce hydrogels that can be used in regenerative medicine.

Objective: The goal of this study was to assess the biocompatibility of an ECM hydrogel derived from the porcine urinary bladder (pUBMh) in vitro using fibroblasts, macrophages, and adipose-derived mesenchymal stem cells (AD-MCSs), as well as biocompatibility in vivo using Wistar rats.

Methods: Effects upon cells proliferation/viability was measured using MTT assay, cytotoxic effects were analyzed by quantifying lactate dehydrogenase release and the Live/Dead Cell Imaging assay. Macrophage activation was assessed by quantification of IL-6, IL-10, IL-12p70, MCP-1, and TNF-α using a microsphere-based cytometric bead array. For in vivo analysis, Wistar rats were inoculated into the dorsal sub-dermis with pUBMh. The specimens were sacrificed at 24 h after inoculation for histological study.

Results: The pUBMh obtained showed good consistency and absence of cell debris. The biocompatibility tests in vitro revealed that the pUBMh promoted cell proliferation and it is not cytotoxic on the three tested cell lines and induces the production of pro-inflammatory cytokines on macrophages, mainly TNF-α and MCP-1. In vivo, pUBMh exhibited fibroblast-like cell recruitment, without tissue damage or inflammation.

Conclusion: The results show that pUBMh allows cell proliferation without cytotoxic effects and can be considered an excellent biomaterial for tissue engineering.

用于组织工程的猪膀胱细胞外基质水凝胶:体外和体内分析。
背景:制造具有良好生物相容性和生物可降解性的支架的必要性导致了细胞外基质(ECM)支架的产生。它们的优点之一是,它们可以更好地进行细胞定植,使其能够成功地整合到宿主组织中,围绕需要修复的区域,它们的配方有助于将其放置成不规则的形状。猪膀胱ECM (pUBM)由蛋白质、蛋白聚糖和糖胺聚糖组成,为细胞提供支持和激活信号。这些特性使其成为生产可用于再生医学的水凝胶的绝佳选择。目的:本研究的目的是利用成纤维细胞、巨噬细胞和脂肪源性间充质干细胞(AD-MCSs)评估猪膀胱ECM水凝胶(pUBMh)的体外生物相容性,以及Wistar大鼠的体内生物相容性。方法:采用MTT法检测对细胞增殖/活力的影响,采用乳酸脱氢酶定量释放法和活/死细胞成像法分析细胞毒性作用。巨噬细胞活化通过使用微球细胞计数头阵列定量检测IL-6、IL-10、IL-12p70、MCP-1和TNF-α来评估。为了进行体内分析,将pUBMh接种于Wistar大鼠背部真皮下。接种后24 h处死标本进行组织学研究。结果:获得的pUBMh一致性好,无细胞碎片。体外生物相容性实验结果显示,pUBMh对三种细胞系均有促进细胞增殖的作用,且对三种细胞系均无细胞毒性,可诱导巨噬细胞产生促炎因子,主要为TNF-α和MCP-1。在体内,pUBMh表现出成纤维细胞样细胞募集,没有组织损伤或炎症。结论:pUBMh能促进细胞增殖,无细胞毒性作用,是一种良好的组织工程生物材料。
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
Bio-medical materials and engineering
Bio-medical materials and engineering 工程技术-材料科学:生物材料
CiteScore
1.80
自引率
0.00%
发文量
73
审稿时长
6 months
期刊介绍: The aim of Bio-Medical Materials and Engineering is to promote the welfare of humans and to help them keep healthy. This international journal is an interdisciplinary journal that publishes original research papers, review articles and brief notes on materials and engineering for biological and medical systems. Articles in this peer-reviewed journal cover a wide range of topics, including, but not limited to: Engineering as applied to improving diagnosis, therapy, and prevention of disease and injury, and better substitutes for damaged or disabled human organs; Studies of biomaterial interactions with the human body, bio-compatibility, interfacial and interaction problems; Biomechanical behavior under biological and/or medical conditions; Mechanical and biological properties of membrane biomaterials; Cellular and tissue engineering, physiological, biophysical, biochemical bioengineering aspects; Implant failure fields and degradation of implants. Biomimetics engineering and materials including system analysis as supporter for aged people and as rehabilitation; Bioengineering and materials technology as applied to the decontamination against environmental problems; Biosensors, bioreactors, bioprocess instrumentation and control system; Application to food engineering; Standardization problems on biomaterials and related products; Assessment of reliability and safety of biomedical materials and man-machine systems; and Product liability of biomaterials and related products.
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