Protocols for the preparation and characterization of decellularized tissue and organ scaffolds for tissue engineering
Extracellular matrix (ECM) scaffolds are extensively used in tissue engineering studies and numerous clinical applications for tissue and organ reconstructions. Due to the global severe shortage of human tissues and organs, xenogeneic biomaterials are a common source for human tissue engineering and...
| الحاوية / القاعدة: | BioTechniques |
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| المؤلفون الرئيسيون: | , , , , , , |
| التنسيق: | مقال |
| اللغة: | الإنجليزية |
| منشور في: |
Taylor & Francis Group
2021-02-01
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| الموضوعات: | |
| الوصول للمادة أونلاين: | https://www.future-science.com/doi/10.2144/btn-2020-0141 |
| _version_ | 1850312223032868864 |
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| author | Dar-Jen Hsieh Periasamy Srinivasan Ko-Chung Yen Yi-Chun Yeh Yun-Ju Chen Hung-Chou Wang Yih-Wen Tarng |
| author_facet | Dar-Jen Hsieh Periasamy Srinivasan Ko-Chung Yen Yi-Chun Yeh Yun-Ju Chen Hung-Chou Wang Yih-Wen Tarng |
| author_sort | Dar-Jen Hsieh |
| collection | DOAJ |
| container_title | BioTechniques |
| description | Extracellular matrix (ECM) scaffolds are extensively used in tissue engineering studies and numerous clinical applications for tissue and organ reconstructions. Due to the global severe shortage of human tissues and organs, xenogeneic biomaterials are a common source for human tissue engineering and regenerative medicine applications. Traditional methods for decellularization often disrupt the 3D architecture and damage the structural integrity of the ECM scaffold. To efficiently obtain natural ECM scaffolds from animal tissues and organs with intact architecture, we have developed a platform decellularization process using supercritical CO2 and tested its potential application in tissue engineering. A combination of human mesenchymal stem cells with a decellularized dermal matrix scaffold allowed complete regeneration of skin structure in a porcine full-thickness wound model. |
| format | Article |
| id | doaj-art-885e6c00a53a4ebe9fd6562544408c39 |
| institution | Directory of Open Access Journals |
| issn | 0736-6205 1940-9818 |
| language | English |
| publishDate | 2021-02-01 |
| publisher | Taylor & Francis Group |
| record_format | Article |
| spelling | doaj-art-885e6c00a53a4ebe9fd6562544408c392025-08-19T23:26:40ZengTaylor & Francis GroupBioTechniques0736-62051940-98182021-02-0170210711510.2144/btn-2020-0141Protocols for the preparation and characterization of decellularized tissue and organ scaffolds for tissue engineeringDar-Jen Hsieh0Periasamy Srinivasan1Ko-Chung Yen2Yi-Chun Yeh3Yun-Ju Chen4Hung-Chou Wang5Yih-Wen Tarng61R&D Center, ACRO Biomedical Co., Ltd. Luzhu District, Kaohsiung City 82151, Taiwan1R&D Center, ACRO Biomedical Co., Ltd. Luzhu District, Kaohsiung City 82151, Taiwan1R&D Center, ACRO Biomedical Co., Ltd. Luzhu District, Kaohsiung City 82151, Taiwan1R&D Center, ACRO Biomedical Co., Ltd. Luzhu District, Kaohsiung City 82151, Taiwan1R&D Center, ACRO Biomedical Co., Ltd. Luzhu District, Kaohsiung City 82151, Taiwan1R&D Center, ACRO Biomedical Co., Ltd. Luzhu District, Kaohsiung City 82151, Taiwan2Department of Orthopedics, Kaohsiung Veterans General Hospital, no. 386, Da-Chung 1st Road, Kaohsiung City, 813414, TaiwanExtracellular matrix (ECM) scaffolds are extensively used in tissue engineering studies and numerous clinical applications for tissue and organ reconstructions. Due to the global severe shortage of human tissues and organs, xenogeneic biomaterials are a common source for human tissue engineering and regenerative medicine applications. Traditional methods for decellularization often disrupt the 3D architecture and damage the structural integrity of the ECM scaffold. To efficiently obtain natural ECM scaffolds from animal tissues and organs with intact architecture, we have developed a platform decellularization process using supercritical CO2 and tested its potential application in tissue engineering. A combination of human mesenchymal stem cells with a decellularized dermal matrix scaffold allowed complete regeneration of skin structure in a porcine full-thickness wound model.https://www.future-science.com/doi/10.2144/btn-2020-01413D bioprintingdecellularized tissue scaffoldsorgan regenerationorgan scaffoldsporcine organsporcine tissues |
| spellingShingle | Dar-Jen Hsieh Periasamy Srinivasan Ko-Chung Yen Yi-Chun Yeh Yun-Ju Chen Hung-Chou Wang Yih-Wen Tarng Protocols for the preparation and characterization of decellularized tissue and organ scaffolds for tissue engineering 3D bioprinting decellularized tissue scaffolds organ regeneration organ scaffolds porcine organs porcine tissues |
| title | Protocols for the preparation and characterization of decellularized tissue and organ scaffolds for tissue engineering |
| title_full | Protocols for the preparation and characterization of decellularized tissue and organ scaffolds for tissue engineering |
| title_fullStr | Protocols for the preparation and characterization of decellularized tissue and organ scaffolds for tissue engineering |
| title_full_unstemmed | Protocols for the preparation and characterization of decellularized tissue and organ scaffolds for tissue engineering |
| title_short | Protocols for the preparation and characterization of decellularized tissue and organ scaffolds for tissue engineering |
| title_sort | protocols for the preparation and characterization of decellularized tissue and organ scaffolds for tissue engineering |
| topic | 3D bioprinting decellularized tissue scaffolds organ regeneration organ scaffolds porcine organs porcine tissues |
| url | https://www.future-science.com/doi/10.2144/btn-2020-0141 |
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