Macromolecular crowding meets tissue engineering by self-assembly: a paradigm shift in regenerative medicine.
about
Engineered cartilaginous tubes for tracheal tissue replacement via self-assembly and fusion of human mesenchymal stem cell constructsBiosynthesis of poly(3-hydroxybutyrateco-3-hydroxy-4-methylvalerate) by Strain Azotobacter chroococcum 7BDesign and Characterization of Fibrin-Based Acoustically Responsive Scaffolds for Tissue Engineering ApplicationsEffects of Macromolecular Crowding on Human Adipose Stem Cell Culture in Fetal Bovine Serum, Human Serum, and Defined Xeno-Free/Serum-Free Conditions.Cell microenvironment engineering and monitoring for tissue engineering and regenerative medicine: the recent advances.Novel use for polyvinylpyrrolidone as a macromolecular crowder for enhanced extracellular matrix deposition and cell proliferation.Macromolecularly crowded in vitro microenvironments accelerate the production of extracellular matrix-rich supramolecular assemblies.Macromolecular crowding meets oxygen tension in human mesenchymal stem cell culture - A step closer to physiologically relevant in vitro organogenesis.An insight into morphometric descriptors of cell shape that pertain to regenerative medicine.Scaffold and scaffold-free self-assembled systems in regenerative medicine.Media additives to promote spheroid circularity and compactness in hanging drop platform.Progress in Corneal Stromal Repair: From Tissue Grafts and Biomaterials to Modular Supramolecular Tissue-Like Assemblies.Low oxygen tension and macromolecular crowding accelerate extracellular matrix deposition in human corneal fibroblast culture.Making microenvironments: A look into incorporating macromolecular crowding into in vitro experiments, to generate biomimetic microenvironments which are capable of directing cell function for tissue engineering applications.Biocompatibility of ferroelectric lithium niobate and the influence of polarization charge on osteoblast proliferation and function.Three-dimensional organotypic matrices from alternative collagen sources as pre-clinical models for cell biology.Collagen Quantification in Tissue Specimens.Biosynthesis of poly(3-hydroxybutyrate) copolymers by Azotobacter chroococcum 7B: A precursor feeding strategy.Improving 2D and 3D Skin In Vitro Models Using Macromolecular Crowding.The influence of anisotropic nano- to micro-topography on in vitro and in vivo osteogenesis.
P2860
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P2860
Macromolecular crowding meets tissue engineering by self-assembly: a paradigm shift in regenerative medicine.
description
2014 nî lūn-bûn
@nan
2014 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
Macromolecular crowding meets ...... hift in regenerative medicine.
@ast
Macromolecular crowding meets ...... hift in regenerative medicine.
@en
Macromolecular crowding meets ...... hift in regenerative medicine.
@nl
type
label
Macromolecular crowding meets ...... hift in regenerative medicine.
@ast
Macromolecular crowding meets ...... hift in regenerative medicine.
@en
Macromolecular crowding meets ...... hift in regenerative medicine.
@nl
prefLabel
Macromolecular crowding meets ...... hift in regenerative medicine.
@ast
Macromolecular crowding meets ...... hift in regenerative medicine.
@en
Macromolecular crowding meets ...... hift in regenerative medicine.
@nl
P2093
P2860
P50
P921
P356
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Macromolecular crowding meets ...... hift in regenerative medicine.
@en
P2093
Alexander Gorelov
Benjamin Thomas
David Lyden
Michael Raghunath
Xingliang Fan
Yury Rochev
P2860
P304
P356
10.1002/ADMA.201304428
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P50
P577
2014-02-06T00:00:00Z