Harvest of Cell-Only Muscle Fibers Using Thermally Expandable Hydrogels with Adhesive Patterns.

IF 2.7 4区医学 Q3 CELL & TISSUE ENGINEERING Tissue engineering. Part C, Methods Pub Date : 2023-10-01 Epub Date: 2023-08-03 DOI:10.1089/ten.TEC.2023.0096

Yu Bin Lee, Se-Jeong Kim, Eun Mi Kim, Hayeon Byun, Heungsoo Shin

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Abstract

Muscle tissue engineering has been the focus of extensive research due to its potential for numerous medical applications, including ex vivo actuator development and clinical treatments. In this study, we developed a method for harvesting muscle fiber in a floatable and translocatable manner utilizing thermally expandable hydrogels with a chemically patterned polydopamine (PD) layer generated by microcontact printing (μCP). The μCP of PD on the hydrogel facilitated the formation of stripe patterns with varying widths of printed/nonprinted area (50/50, 100/100, and 200/200 μm). The spatially controlled adhesion of C2C12 myoblasts on the PD patterns produced clearly distinguishable muscle fibers, and translocated muscle fibers exhibited preserved extracellular matrix and junction proteins. Furthermore, the development of anisotropic arrangements and mature myotubes within the fibers suggests the potential for functional control of engineered muscle tissues. Overall, the muscle fiber harvesting method developed herein is suitable for both translocation and floating and is a promising technique for muscle tissue engineering as it mimics the structure-function relationship of natural tissue.

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使用具有粘合图案的热膨胀水凝胶收获仅细胞的肌肉纤维。

肌肉组织工程因其在许多医学应用中的潜力而成为广泛研究的焦点，包括离体致动器的开发和临床治疗。在这项研究中，我们开发了一种以可漂浮和可移位的方式收获肌肉纤维的方法，该方法利用具有通过微接触印刷（μCP）产生的化学图案化聚多巴胺（PD）层的热膨胀水凝胶。水凝胶上PD的μCP促进了条纹图案的形成，条纹图案具有不同宽度的打印/非打印区域（50/50、100/100和200/200 μm）。C2C12成肌细胞在PD图案上的空间控制粘附产生了明显可区分的肌纤维，移位的肌纤维表现出保留的细胞外基质和连接蛋白。此外，纤维内各向异性排列和成熟肌管的发展表明了工程肌肉组织功能控制的潜力。总之，本文开发的肌肉纤维收获方法既适用于移位又适用于漂浮，并且是一种很有前途的肌肉组织工程技术，因为它模拟了天然组织的结构-功能关系。

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来源期刊

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.