Regulating bone formation via controlled scaffold degradation. - Wikidata - awgldk - TriplyDB

Regulating bone formation via controlled scaffold degradation.

Regulating bone formation via controlled scaffold degradation.

http://www.wikidata.org/entity/Q51807677

about

Biomaterial delivery of morphogens to mimic the natural healing cascade in bone Functional augmentation of naturally-derived materials for tissue regeneration Controlling osteogenic stem cell differentiation via soft bioinspired hydrogels Growth factors, matrices, and forces combine and control stem cells Physical properties of alginate hydrogels and their effects on in vitro follicle development.Electrospun gelatin/PCL and collagen/PLCL scaffolds for vascular tissue engineering.Characterisation of physico-mechanical properties and degradation potential of calcium alginate beads for use in embolisation.Adaptive growth factor delivery from a polyelectrolyte coating promotes synergistic bone tissue repair and reconstruction.Sustained localized presentation of RNA interfering molecules from in situ forming hydrogels to guide stem cell osteogenic differentiation Oxidized alginate hydrogels for bone morphogenetic protein-2 delivery in long bone defects.In vivo bioluminescent tracking of mesenchymal stem cells within large hydrogel constructs.Protein polymer MRI contrast agents: Longitudinal analysis of biomaterials in vivo.An alginate-based hybrid system for growth factor delivery in the functional repair of large bone defects.Improved cell infiltration of highly porous nanofibrous scaffolds formed by combined fiber-fiber charge repulsions and ultra-sonication Effect of cell origin and timing of delivery for stem cell-based bone tissue engineering using biologically functionalized hydrogels.Patient-to-patient variability in autologous pericardial matrix scaffolds for cardiac repair.Effects of in vivo mechanical loading on large bone defect regeneration.Bone engineering by controlled delivery of osteoinductive molecules and cells.Alkylation of human hair keratin for tunable hydrogel erosion and drug delivery in tissue engineering applications.Hydrogel-based Delivery of rhBMP-2 Improves Healing of Large Bone Defects Compared With Autograft Cell- and gene-based therapeutic strategies for periodontal regenerative medicine.Gene-enhanced tissue engineering for dental hard tissue regeneration: (1) overview and practical considerations.Three-dimensional polymeric systems for cancer cell studies Growth factor delivery for oral and periodontal tissue engineering.Hydrogels with tunable stress relaxation regulate stem cell fate and activity.Fluorescent resonance energy transfer: A tool for probing molecular cell-biomaterial interactions in three dimensions Molecular mechanics of mineralized collagen fibrils in bone Cancer cell angiogenic capability is regulated by 3D culture and integrin engagement Cell encapsulation in biodegradable hydrogels for tissue engineering applications The natural and engineered 3D microenvironment as a regulatory cue during stem cell fate determination.Reprogramming of mesenchymal stem cells derived from iPSCs seeded on biofunctionalized calcium phosphate scaffold for bone engineering Calcium phosphate-bearing matrices induce osteogenic differentiation of stem cells through adenosine signaling.Injectable MMP-sensitive alginate hydrogels as hMSC delivery systems.In situ gelation for cell immobilization and culture in alginate foam scaffolds.Enhanced trophic factor secretion by mesenchymal stem/stromal cells with Glycine-Histidine-Lysine (GHK)-modified alginate hydrogels Polysaccharides and their derivatives for versatile tissue engineering application.Manipulating the intersection of angiogenesis and inflammation Photocrosslinkable, biodegradable hydrogels with controlled cell adhesivity for prolonged siRNA delivery to hMSCs to enhance their osteogenic differentiation.Cytokines during periodontal wound healing: potential application for new therapeutic approach.Delivery vehicle effects on bone regeneration and heterotopic ossification induced by high dose BMP-2.

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P2860

Regulating bone formation via controlled scaffold degradation.

http://www.wikidata.org/entity/Q51807677

description

2003 nî lūn-bûn

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2003年の論文

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2003年学术文章

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2003年学术文章

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2003年学术文章

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2003年学术文章

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2003年学术文章

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2003年学术文章

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2003年學術文章

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2003年學術文章

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name

Regulating bone formation via controlled scaffold degradation.

@en

Regulating bone formation via controlled scaffold degradation.

@nl

type

label

Regulating bone formation via controlled scaffold degradation.

@en

Regulating bone formation via controlled scaffold degradation.

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prefLabel

Regulating bone formation via controlled scaffold degradation.

@en

Regulating bone formation via controlled scaffold degradation.

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Journal of Dental Research

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Regulating bone formation via controlled scaffold degradation.

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A Albeiruti

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D J Mooney

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E Alsberg

http://www.w3.org/2001/XMLSchema#string

H J Kong

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M K Smith

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Y Hirano

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P2860

Marrow stromal cells embedded in alginate for repair of osteochondral defects.

Cell-interactive alginate hydrogels for bone tissue engineering.

Engineering growing tissues.

Craniofacial tissue engineering.

Alginate as immobilization matrix for cells.

Alginate type and RGD density control myoblast phenotype.

Alginate based new materials.

Alginate hydrogels as synthetic extracellular matrix materials.

Evolution of bone transplantation: molecular, cellular and tissue strategies to engineer human bone.

Tissue engineering: from biology to biological substitutes.

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11

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