Mesenchymal Stem Cells and Tissue Bioengineering Applications in Sheep as Ideal Model.

IF 3.8 3区医学 Q2 CELL & TISSUE ENGINEERING Stem Cells International Pub Date : 2024-10-18 eCollection Date: 2024-01-01 DOI:10.1155/2024/5176251

Talita D'Paula Tavares Pereira Muniz, Mariana Correa Rossi, Vânia Maria de Vasconcelos Machado, Ana Liz Garcia Alves

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Abstract

The most common technologies in tissue engineering include growth factor therapies; metal implants, such as titanium; 3D bioprinting; nanoimprinting for ceramic/polymer scaffolds; and cell therapies, such as mesenchymal stem cells (MSCs). Cell therapy is a promising alternative to organ grafts and transplants in the treatment of numerous musculoskeletal diseases. MSCs have increasingly been used in generative medicine due to their specialized self-renewal, immunomodulation, multiplication, and differentiation properties. To further expand the potential of these cells in tissue repair, significant efforts are currently dedicated to the production of biomaterials with desirable short- and long-term biophysical properties that can aid the differentiation and expansion of MSCs. Biomaterials support MSC differentiation by modulating their characteristics, such as composition, mechanical properties, porosity, and topography. This review aimed to describe recent MSC approaches, including those associated with biomaterials, from experimental, clinical, and preclinical studies with sheep models.

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以绵羊为理想模型的间充质干细胞和组织生物工程应用。

组织工程中最常见的技术包括生长因子疗法、钛等金属植入物、三维生物打印、陶瓷/聚合物支架纳米压印以及间充质干细胞等细胞疗法。在治疗多种肌肉骨骼疾病方面，细胞疗法是器官移植的一种很有前景的替代疗法。间充质干细胞具有专门的自我更新、免疫调节、增殖和分化特性，因此越来越多地被用于再生医学。为了进一步扩大这些细胞在组织修复方面的潜力，目前人们正致力于生产具有理想的短期和长期生物物理特性的生物材料，以帮助间充质干细胞的分化和扩增。生物材料通过调节间充质干细胞的组成、机械性能、孔隙率和形貌等特性来支持间充质干细胞的分化。这篇综述旨在从绵羊模型的实验、临床和临床前研究等方面介绍最近的间充质干细胞方法，包括与生物材料相关的方法。

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来源期刊

Stem Cells International CELL & TISSUE ENGINEERING-

CiteScore

8.10

自引率

2.30%

发文量

188

审稿时长

18 weeks

期刊介绍： Stem Cells International is a peer-reviewed, Open Access journal that publishes original research articles, review articles, and clinical studies in all areas of stem cell biology and applications. The journal will consider basic, translational, and clinical research, including animal models and clinical trials. Topics covered include, but are not limited to: embryonic stem cells; induced pluripotent stem cells; tissue-specific stem cells; stem cell differentiation; genetics and epigenetics; cancer stem cells; stem cell technologies; ethical, legal, and social issues.