Designing of Collagen Based Poly(3-hydroxybutyrate-co-4-hydroxybutyrate) Scaffolds for Tissue Engineering by S. Vigneswari, H. P. S. Abdul Khalil, A. A. Amirul

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PREPARATION AND TENSILE PROPERTY OF 3D POROUS LATTICE STRUCTURE FOR SKIN TISSUE ENGINEERING SCAFFOLDS by FANG Chuang, JI XiaoGang, WANG Wei

“…Digital light process(DLP)forming method has the high forming speed and accuracy characteristics,and can be better used for the preparation of tiny size structures.Therefore,in this study,a new 3D porous lattice structure obtained by artificial topology⁃optimized square lattice as a single cell and spatial 3D equally spaced array of the single cell was designed.Then a flexible and elastic photosensitive resin by using DLP forming method for preparation experiments was carried out.The influence of DLP printing on the formation of the lattice structure and the forming effect were investigated.The tensile mechanical properties of all samples of complete structure without siltation were studied.The results show that the new porous structure prepared by DLP printing has clear internal pores and good connectivity in which the porosity reached more than 80%,and the elongation at break is also above 856%,among which the tensile toughness of lattice structure 3 is the largest and its comprehensive tensile properties are the best.The structure can be widely used in skin tissue engineering scaffolds,flexible electrodes,fragile product clamping fixtures,etc.…”
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An Osteoconductive, Osteoinductive, and Osteogenic Tissue-Engineered Product for Trauma and Orthopaedic Surgery: How Far Are We? by Wasim S. Khan, Faizal Rayan, Baljinder S. Dhinsa, David Marsh

“…The aim of this paper is to understand the principles of tissue engineering of bone and its clinical applications in reconstructive surgery.…”
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Directional Topography Influences Adipose Mesenchymal Stromal Cell Plasticity: Prospects for Tissue Engineering and Fibrosis by Gabriel Romero Liguori, Qihui Zhou, Tácia Tavares Aquinas Liguori, Guilherme Garcia Barros, Philipp Till Kühn, Luiz Felipe Pinho Moreira, Patrick van Rijn, Martin C. Harmsen

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Preparation and Evaluation of Gelatin-Chitosan-Nanobioglass 3D Porous Scaffold for Bone Tissue Engineering by Kanchan Maji, Sudip Dasgupta, Krishna Pramanik, Akalabya Bissoyi

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Improved porosity promotes reendothelialization and smooth muscle remodeling in decellularized tissue-engineered vascular grafts by Tun Wang, Sheng Liao, Peng Lu, Zhenyu He, Siyuan Cheng, Tianjian Wang, Zibo Cheng, Yangyang An, Mo Wang, Chang Shu

Subjects: “…Tissue-engineered vascular graft…”
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Chemical Synthesis, Characterization, and Biocompatibility Study of Hydroxyapatite/Chitosan Phosphate Nanocomposite for Bone Tissue Engineering Applications by Nabakumar Pramanik, Debasish Mishra, Indranil Banerjee, Tapas Kumar Maiti, Parag Bhargava, Panchanan Pramanik

“…The prepared HAp/CSP nanocomposite with uniform microstructure may be used in bone tissue engineering applications.…”
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Nephronectin Is Required for Vascularization in Zebrafish and Sufficient to Promote Mammalian Vessel‐Like Structures in Hydrogels for Tissue Engineering by Chinmoy Patra, Amey Rayrikar, Ganesh Wagh, Florian Kleefeldt, Kaveh Roshanbinfar, Florian Cop, Iva Nikolic, Mirko H. H. Schmidt, Amparo Acker‐Palmer, Süleyman Ergün, Felix B. Engel

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Comparative Investigation of Human Amniotic Epithelial Cells and Mesenchymal Stem Cells for Application in Bone Tissue Engineering by Jiawen Si, Jiewen Dai, Jianjun Zhang, Sha Liu, Jing Gu, Jun Shi, Steve G. F. Shen, Lihe Guo

“…Emerging evidence suggests amniotic epithelial cells (AECs) as a promising source of progenitor cells in regenerative medicine and bone tissue engineering. However, investigations comparing the regenerative properties of AECs with other sources of stem cells are particularly needed before the feasibility of AECs in bone tissue engineering can be determined. …”
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3D-Printed Filaments: Alginate Hydrogels With Cellulose Nanofibers as Functional Biomaterials for Tissue Engineering Applications by Mohamed Taha, Ragab Abouzeid, A. H. Abdelbaky Elbatran, M. Shehadeh, Husain Alfadhel, Wafa Mazi, Noha Omer, Mahmoud A. Abdelaziz, Amal T. Mogharbel, Hamouda M. Mousa

“…These results suggest that incorporating TOCNs into alginate hydrogels offers a promising approach to developing functional biomaterials in tissue engineering, particularly for bone regeneration applications.…”
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The Integration of Nanotechnology and Biology for Cell Engineering: Promises and Challenges by Uma Maheswari Krishnan, Swaminathan Sethuraman

Subjects: “…Tissue Engineering…”
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Light‐Processed 3D Bioprinting of Symblepharon Rings Fortified with l‐Ascorbic Acid for Ocular Tissue Engineering by Musa Ayran, Yeliz Goyuk, Aysegul Tiryaki, Songul Ulag, Ayse Ceren Calikoglu Koyuncu, Semra Akkaya Turhan, Oguzhan Gunduz

“…This innovative approach also facilitates the production of rings that exhibit superior softness and are amenable to mechanical movements for ocular tissue engineering. The morphological, chemical, rheological, biological, thermal, and drug‐release characteristics of 3D‐printed lAA‐loaded symblepharon rings are investigated. …”
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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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Cellulose nanofiber reinforced curcumin-infused calcium phosphate silicate cement for various bone-tissue engineering application by Xiu Guo Lu, Xiu Guo Lu, Sha Li Meng, Sha Li Meng, Qiu Jing Zhou, Qiu Jing Zhou, Tao Wu, Tao Wu, Xing Tian Gong, Qiong Wu

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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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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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