In addition, future perspectives of cartilage tissue engineering are highlighted in this chapter.doi:10.1016/B978-0-08-100979-6.00016-1Kai-Xing A. LeeHooi Y. NgLi-Ju WeiYu-Fang ShenFunctional 3D Tissue Engineering Scaffolds
NP cells actively interacted with TGF-β3-loaded GO flakes and remodeled the scaffolds through endocytosis. This work highlights the potential of using GO as a nanocarrier for the design of functional hybrid peptide-based hydrogels. Statement of significance Intervertebral disc (IVD) degeneration is ...
biomaterial scaffolds as carriers and substrates are needed for stem cell growth and should facilitate the adhesion, proliferation, and osteogenic differentiation of the seed cells; such scaffolds should be easy to mineralize and transform into 3D bone-like tissue, allowing osteogenesis, osteoinduction, ...
Cell responses to biomimetic protein scaffolds used in tissue repair and engineering. International review of cytology. San Diego: Academic Press; 2007. p. 75–150. Google Scholar Brown DC, Vogel KG. Characteristics of the in vitro interaction of a small proteoglycan (PG II) of bovine tendon...
Hydrogel scaffolds have numerous potential applications in the tissue engineering field. However, tough hydrogel scaffolds implanted invivoare seldom reported because it is difficult to balance biocompatibility and high mechanical properties. Inspired by Chinese ramen, we propose a universal fabricating method...
et al. Microfabrication of complex porous tissue engineering scaffolds using 3D projection stereolithography. Biomaterials33, 3824–3834 (2012). Article CAS PubMed PubMed Central Google Scholar Lin, H. et al. Application of visible light-based projection stereolithography for live cell-scaffold ...
Cellulose-based hydrogels are used in different fields related to tissue engineering. Patterned macroporous (PM) with a diameter larger than 100 μm were introduced to pristine 3D nanofibrous BC scaffolds using infrared (IR) micromachining techniques to create an in vitro culture model for breast ...
Tissue engineering approaches for enhancing pancreatic islet growth in vitro . Full size image In another engineering approach, encapsulation of islet cells in a 3D scaffold provides protection against the immune cells and its antibodies. However, the diffusion of low molecular weight cytokines through ...
Humes HD, MacKay SM, Funke AJ, Buffington DA. 1999. Tissue engineering of a bioartificial renal tubule assist device: in vitro transport and metabolic characteristics. Kidney Int 55(6):2502–2514. ArticlePubMedCASGoogle Scholar Hutmacher DW. 2000. Scaffolds in tissue engineering bone and cartila...
However, the long term bone healing effects and associating risks, if any, of using nSi in 3D bioprinted tissue engineering bone scaffolds in vivo are unclear and require a more thorough assessment prior to practical use. Hence, in this study, we firstly developed a gelatin-alginate-based ...