Making tissue engineering scaffolds work. Review: the application of solid freeform fabrication technology to the production of tissue engineering scaffolds.
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Platelet-rich fibrin promotes periodontal regeneration and enhances alveolar bone augmentationRecent developments of functional scaffolds for craniomaxillofacial bone tissue engineering applicationsEpithelial machines of morphogenesis and their potential application in organ assembly and tissue engineeringBiological properties of solid free form designed ceramic scaffolds with BMP-2: in vitro and in vivo evaluationLaser-based three-dimensional multiscale micropatterning of biocompatible hydrogels for customized tissue engineering scaffolds.Fabricated Elastin3D biofabrication strategies for tissue engineering and regenerative medicineScaffold design for bone regenerationBacterial-Derived Polymer Poly-γ-Glutamic Acid (γ-PGA)-Based Micro/Nanoparticles as a Delivery System for Antimicrobials and Other Biomedical Applications3D Printing of Scaffolds for Tissue Regeneration Applications.Engineering hydrogels as extracellular matrix mimicsSupercritical carbon dioxide: putting the fizz into biomaterials.The osteogenesis of bone marrow stem cells on mPEG-PCL-mPEG/hydroxyapatite composite scaffold via solid freeform fabricationSolid Free-form Fabrication Technology and Its Application to Bone Tissue Engineering.Microporous poly(L-lactic acid) membranes fabricated by polyethylene glycol solvent-cast/particulate leaching techniqueBiomimetic strategies for bone repair and regeneration.Time-Dependent Effects of Pre-Aging 3D Polymer Scaffolds in Cell Culture Medium on Cell ProliferationA novel porous scaffold fabrication technique for epithelial and endothelial tissue engineering.Mechanical and microstructural properties of polycaprolactone scaffolds with one-dimensional, two-dimensional, and three-dimensional orthogonally oriented porous architectures produced by selective laser sinteringPolycaprolactone-coated 3D printed tricalcium phosphate scaffolds for bone tissue engineering: in vitro alendronate release behavior and local delivery effect on in vivo osteogenesisImmobilization of murine anti-BMP-2 monoclonal antibody on various biomaterials for bone tissue engineering.Biological effects of Spirulina (Arthrospira) biopolymers and biomass in the development of nanostructured scaffoldsStereolithographic bone scaffold design parameters: osteogenic differentiation and signal expression.Technique for internal channelling of hydroentangled nonwoven scaffolds to enhance cell penetration.Microwave-sintered 3D printed tricalcium phosphate scaffolds for bone tissue engineering.Current tissue engineering and novel therapeutic approaches to axonal regeneration following spinal cord injury using polymer scaffolds.Scaffold Sheet Design Strategy for Soft Tissue Engineering.Hydrophobic nanoparticles improve permeability of cell-encapsulating poly(ethylene glycol) hydrogels while maintaining patternability.Stem Cells Grown in Osteogenic Medium on PLGA, PLGA/HA, and Titanium Scaffolds for Surgical Applications.Next generation of electrosprayed fibers for tissue regeneration.Bioactive glass in tissue engineering.Critical evaluation of biodegradable polymers used in nanodrugs.In vitro evaluation of natural marine sponge collagen as a scaffold for bone tissue engineering.Translating textiles to tissue engineering: Creation and evaluation of microporous, biocompatible, degradable scaffolds using industry relevant manufacturing approaches and human adipose derived stem cells.Digital design of scaffold for mandibular defect repair based on tissue engineering.Bioactive glass scaffolds for bone tissue engineering: state of the art and future perspectives.Osteoinduction and proliferation of bone-marrow stromal cells in three-dimensional poly (ε-caprolactone)/ hydroxyapatite/collagen scaffoldsSynthesis of macroporous poly(dimethylsiloxane) scaffolds for tissue engineering applicationsEffects of the orientation of anti-BMP2 monoclonal antibody immobilized on scaffold in antibody-mediated osseous regenerationBone Regeneration Based on Tissue Engineering Conceptions - A 21st Century Perspective.
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P2860
Making tissue engineering scaffolds work. Review: the application of solid freeform fabrication technology to the production of tissue engineering scaffolds.
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
2003年论文
@zh
2003年论文
@zh-cn
name
Making tissue engineering scaf ...... tissue engineering scaffolds.
@ast
Making tissue engineering scaf ...... tissue engineering scaffolds.
@en
type
label
Making tissue engineering scaf ...... tissue engineering scaffolds.
@ast
Making tissue engineering scaf ...... tissue engineering scaffolds.
@en
prefLabel
Making tissue engineering scaf ...... tissue engineering scaffolds.
@ast
Making tissue engineering scaf ...... tissue engineering scaffolds.
@en
P356
P1476
Making tissue engineering scaf ...... f tissue engineering scaffolds
@en
P2093
J T Czernuszka
P304
29-39; discussion 39-40
P356
10.22203/ECM.V005A03
P577
2003-06-30T00:00:00Z