Self-organization and the self-assembling process in tissue engineering
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Emergence of scaffold-free approaches for tissue engineering musculoskeletal cartilagesEngineered cartilaginous tubes for tracheal tissue replacement via self-assembly and fusion of human mesenchymal stem cell constructsSmall-Scale Fabrication of Biomimetic Structures for Periodontal RegenerationMicroscale assembly directed by liquid-based template.Cooperative effects of fibronectin matrix assembly and initial cell-substrate adhesion strength in cellular self-assembly.Initiation of Chondrocyte Self-Assembly Requires an Intact Cytoskeletal Network.Macromolecular crowding meets tissue engineering by self-assembly: a paradigm shift in regenerative medicine.Harnessing biomechanics to develop cartilage regeneration strategies.Thyroid hormones enhance the biomechanical functionality of scaffold-free neocartilage.Challenges in engineering osteochondral tissue grafts with hierarchical structuresScaffold-free approach produces neocartilage tissue of similar quality as the use of HyStem™ and Hydromatrix™ scaffoldsDirecting three-dimensional multicellular morphogenesis by self-organization of vascular mesenchymal cells in hyaluronic acid hydrogels.Advances in tissue engineering through stem cell-based co-culture.Gene transfer by pulsed electric field is highly promising in cutaneous wound healing.An overview of recent patents on musculoskeletal interface tissue engineering.The Self-Assembling Process and Applications in Tissue Engineering.A Cell-Based Self-Assembly Approach for the Production of Human Osseous Tissues from Adipose-Derived Stromal/Stem Cells.Cell-based tissue engineering strategies used in the clinical repair of articular cartilageClinical Translation of Tissue Engineered Trachea Grafts.Recent Tissue Engineering Advances for the Treatment of Temporomandibular Joint Disorders.Critical seeding density improves the properties and translatability of self-assembling anatomically shaped knee menisci.Ammonium-Chloride-Potassium Lysing Buffer Treatment of Fully Differentiated Cells Increases Cell Purity and Resulting Neotissue Functional Properties.Tissue engineering potential of human dermis-isolated adult stem cells from multiple anatomical locationsThe mechanical properties of individual cell spheroids.Effects of passage number and post-expansion aggregate culture on tissue engineered, self-assembled neocartilage.Manipulation of cellular spheroid composition and the effects on vascular tissue fusion.Tendon and ligament as novel cell sources for engineering the knee meniscus.Using Costal Chondrocytes to Engineer Articular Cartilage with Applications of Passive Axial Compression and Bioactive Stimuli.Temporal development of near-native functional properties and correlations with qMRI in self-assembling fibrocartilage treated with exogenous lysyl oxidase homolog 2.Functional properties of native and tissue-engineered cartilage toward understanding the pathogenesis of chondral lesions at the knee: A bovine cadaveric study.Self-organization in a diversity induced thermodynamics.Endochondral Ossification in Critical-Sized Bone Defects via Readily Implantable Scaffold-Free Stem Cell Constructs.A Simple Modification Method to Obtain Anisotropic and Porous 3D Microfibrillar Scaffolds for Surgical and Biomedical Applications.Tissue-engineered 3D human lymphatic microvascular network for in vitro studies of lymphangiogenesis.Dual non-viral gene delivery from microparticles within 3D high-density stem cell constructs for enhanced bone tissue engineering.Physioxia Promotes the Articular Chondrocyte-Like Phenotype in Human Chondroprogenitor-Derived Self-Organized Tissue.Flexible Fabrication of Shape-Controlled Collagen Building Blocks for Self-Assembly of 3D Microtissues.Functional self-assembled neocartilage as part of a biphasic osteochondral construct.Engineering articular cartilage-like grafts by self-assembly of infrapatellar fat pad-derived stem cells.Orthopaedic regenerative tissue engineering en route to the holy grail: disequilibrium between the demand and the supply in the operating room.
P2860
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P2860
Self-organization and the self-assembling process in tissue engineering
description
2013 nî lūn-bûn
@nan
2013 թուականին հրատարակուած գիտական յօդուած
@hyw
2013 թվականին հրատարակված գիտական հոդված
@hy
2013年の論文
@ja
2013年学术文章
@wuu
2013年学术文章
@zh-cn
2013年学术文章
@zh-hans
2013年学术文章
@zh-my
2013年学术文章
@zh-sg
2013年學術文章
@yue
name
Self-organization and the self-assembling process in tissue engineering
@ast
Self-organization and the self-assembling process in tissue engineering
@en
Self-organization and the self-assembling process in tissue engineering
@nl
type
label
Self-organization and the self-assembling process in tissue engineering
@ast
Self-organization and the self-assembling process in tissue engineering
@en
Self-organization and the self-assembling process in tissue engineering
@nl
prefLabel
Self-organization and the self-assembling process in tissue engineering
@ast
Self-organization and the self-assembling process in tissue engineering
@en
Self-organization and the self-assembling process in tissue engineering
@nl
P2093
P2860
P1476
Self-organization and the self-assembling process in tissue engineering
@en
P2093
Jerry C Hu
Kyriacos A Athanasiou
Pasha Hadidi
P2860
P304
P356
10.1146/ANNUREV-BIOENG-071812-152423
P407
P577
2013-05-20T00:00:00Z