Adipose-Derived Mesenchymal Stem Cells in the Use of Cartilage Tissue Engineering: The Need for a Rapid Isolation Procedure by Sam L. Francis, Serena Duchi, Carmine Onofrillo, Claudia Di Bella, Peter F. M. Choong

“…Mesenchymal stem cells (MSCs) have shown much promise with respect to their use in cartilage tissue engineering. MSCs can be obtained from many different tissue sources. …”
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Impact of Tissue Harvesting Sites on the Cellular Behaviors of Adipose-Derived Stem Cells: Implication for Bone Tissue Engineering by Maryam Rezai Rad, Mahbobeh Bohloli, Mahshid Akhavan Rahnama, Azadeh Anbarlou, Pantea Nazeman, Arash Khojasteh

“…The results of this study suggested that BFPdSCs as an encouraging source of mesenchymal stem cells are to be used for bone tissue engineering.…”
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Effects of Gamma Irradiation on the Properties of Hydroxyapatite-Collagen-Chitosan-Mg-ZnO Scaffolds for Bone Tissue Engineering by Tusher -Al-Arafat, Shawon Ahmed, Polash Chandra Karmakar, Umme Salma Zohora, Naznin Akhtar, S. M. Asaduzzaman

“…Bone tissue engineering aims to repair diseased or damaged bone that cannot be regenerated naturally. …”
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Cartilage structure-inspired nanofiber-hydrogel composite with robust proliferation and stable chondral lineage-specific differentiation function to orchestrate cartilage regenerat... by Yaqiang Li, Xiaowei Xun, Liang Duan, Erji Gao, Jiaxin Li, Lei Lin, Xinping Li, Aijuan He, Haiyong Ao, Yong Xu, Huitang Xia

Subjects: “…Cartilage tissue engineering…”
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Effects of Genipin Concentration on Cross-Linked Chitosan Scaffolds for Bone Tissue Engineering: Structural Characterization and Evidence of Biocompatibility Features by Simona Dimida, Amilcare Barca, Nadia Cancelli, Vincenzo De Benedictis, Maria Grazia Raucci, Christian Demitri

“…Chitosan is a biocompatible polymer that is currently studied in bone tissue engineering for its capacity to promote growth and mineral-rich matrix deposition by osteoblasts in culture. …”
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Generation of Femtosecond Laser-Cut Decellularized Corneal Lenticule Using Hypotonic Trypsin-EDTA Solution for Corneal Tissue Engineering by Man-Il Huh, Kyoung-Pil Lee, Jeongho Kim, Soojin Yi, Byeong-Ung Park, Hong Kyun Kim

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Most British Surgeons Would Consider Using a Tissue-Engineered Anterior Cruciate Ligament: A Questionnaire Study by Sarah Rathbone, Nicola Maffulli, Sarah H. Cartmell

“…Donor site morbidity, poor graft site integration, and incorrect mechanical performance are all common problems associated with autografts for anterior cruciate ligament (ACL) reconstructions. A tissue-engineered (TE) ligament has the potential to overcome these problems. …”
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Smooth Muscle Cell Alignment and Phenotype Control by Melt Spun Polycaprolactone Fibers for Seeding of Tissue Engineered Blood Vessels by Animesh Agrawal, Bae Hoon Lee, Scott A. Irvine, Jia An, Ramya Bhuthalingam, Vaishali Singh, Kok Yao Low, Chee Kai Chua, Subbu S. Venkatraman

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Decellularized Human Stromal Lenticules Combine with Corneal Epithelial-Like Cells: A New Resource for Corneal Tissue Engineering by Shuai Qin, Shuai Zheng, Bing Qi, Rui Guo, Guanghui Hou

“…In the study, we investigated the possibility of a new resource for corneal tissue engineering.…”
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Hypergravity as a Possible Way of Bone Tissue Engineering in Osteoblastic Differentiation from Mesenchymal Stem Cells: A Systematic Review by Wisnu Sudrajad, Andre Erica Indrawan, Devangga Kusuma, Bagus Wibowo Soetojo, Heri Suroto

“…Background: Tissue engineering development has become a highlight in recent decades. …”
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From Waste to Innovation: A Circular Economy Approach for Tissue Engineering by Transforming Human Bone Waste into Novel Collagen Membranes by Lorena Gallego, Kimberly Harvey, Marta Pevida, Luis García-Consuegra, Olivia García-Suárez, Álvaro Meana, María Alvarez-Viejo, Luis Junquera

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Bioprinted hydrogels in bone regeneration: a bibliometric analysis by Huijie Zhang, Xiaoyu Li, Zhenyu Jia, Kun Jiao, Kun Jiao, Chen Liu, Chen Liu, Zixiang Deng, Yushu Bai, Xianzhao Wei, Xiaoyi Zhou

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Advances in 3D printed hydroxyapatite-collagen scaffolds in bone regeneration by CHENG Ziyang, HAN Xiaoyan, MAO Keming, LIU Laikui, LIANG Weiwei

Subjects: “…|bone tissue engineering|3d-printing|bioprinting…”
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A thermo-responsive chitosan-based injectable hydrogel for delivery of curcumin-loaded polycaprolactone microspheres to articular cartilage: in-vitro and in-vivo assessments by Farnoosh Kalantarnia, Sasan Maleki, Amir Shamloo, Kazem Akbarnataj, Sayed Navid Tavoosi

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DNA-encoded dynamic hydrogels for 3D bioprinted cartilage organoids by Ziyu Chen, Hao Zhang, Jingtao Huang, Weizong Weng, Zhen Geng, Mengmeng Li, Jiacan Su

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Incorporating insulin into alginate-chitosan 3D-printed scaffolds: A comprehensive study on structure, mechanics, and biocompatibility for cartilage tissue engineering by Afsaneh Jahani, Mohammad Sadegh Nourbakhsh, Ali Moradi, Marzieh Mohammadi, Lobat Tayebi

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Optimizations of Placenta Extracellular Matrix‐Loaded Silk Fibroin/Alginate 3D‐Printed Scaffolds Structurally and Functionally for Bone Tissue Engineering by Zahra Bashiri, Zahra Khosrowpour, Ali Moghaddaszadeh, Davod Jafari, Sanaz Alizadeh, Hajar Nasiri, Houman Parsaei, Zahra Keshtkaran, Meghdad Abdollahpour‐Alitappeh, Farshad Bargrizaneh, Behzad Rezaei, Sara Simorgh, Mazaher Gholipourmalekabadi

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Osteoblastic Differentiation of Human Adipose-Derived Mesenchymal Stem Cells on P3HT Thin Polymer Film by Paola Campione, Maria Giovanna Rizzo, Luana Vittoria Bauso, Ileana Ielo, Grazia Maria Lucia Messina, Giovanna Calabrese

Subjects: “…bone tissue engineering…”
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Macroporous scaffolds based on biomass polymers and their applications in wound healing by Daqian Gao, William D. Shipman, Yaping Sun, Joshua Zev Glahn, Leleda Beraki, Henry C. Hsia

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Connexin-Based Therapeutics and Tissue Engineering Approaches to the Amelioration of Chronic Pancreatitis and Type I Diabetes: Construction and Characterization of a Novel Prevascularized Bioartificial Pancreas by J. Matthew Rhett, Hongjun Wang, Heather Bainbridge, Lili Song, Michael J. Yost

“…We have invented technologies targeting the inflammatory response and poor vascularization: a Cx43 mimetic peptide that inhibits inflammation and a novel prevascularized tissue engineered construct. We combined these technologies with isolated islets to create a prevascularized bioartificial pancreas that is resistant to the innate inflammatory response. …”
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