Dynamic culture enhances stem cell infiltration and modulates extracellular matrix production on aligned electrospun nanofibrous scaffolds.
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Cell-Based Strategies for Meniscus Tissue EngineeringMeniscus repair using mesenchymal stem cells - a comprehensive reviewThe application of fiber-reinforced materials in disc repairDesign Requirements for Annulus Fibrosus Repair: Review of Forces, Displacements, and Material Properties of the Intervertebral Disk and a Summary of Candidate Hydrogels for RepairNanofibrous chitosan-polyethylene oxide engineered scaffolds: a comparative study between simulated structural characteristics and cells viability.Hydrogel design for cartilage tissue engineering: a case study with hyaluronic acid.Dynamic tensile loading improves the functional properties of mesenchymal stem cell-laden nanofiber-based fibrocartilage.Macro- to microscale strain transfer in fibrous tissues is heterogeneous and tissue-specificThe knee meniscus: structure-function, pathophysiology, current repair techniques, and prospects for regeneration.A method to integrate patterned electrospun fibers with microfluidic systems to generate complex microenvironments for cell culture applications.Porosity and cell preseeding influence electrospun scaffold maturation and meniscus integration in vitro.Fibrous hyaluronic acid hydrogels that direct MSC chondrogenesis through mechanical and adhesive cues.Rational design of nanofiber scaffolds for orthopedic tissue repair and regenerationA review of key challenges of electrospun scaffolds for tissue-engineering applications.Industrialization of a perfusion bioreactor: prime example of a non-straightforward process.Advances in combining gene therapy with cell and tissue engineering-based approaches to enhance healing of the meniscus.Recent advancements in electrospinning design for tissue engineering applications: A review.Strategic design and fabrication of engineered scaffolds for articular cartilage repair.Biomimetic implants for pelvic floor repair.Improved cellular infiltration in electrospun fiber via engineered porosity.Mechanobiology of the meniscus.A 3D aligned microfibrous myocardial tissue construct cultured under transient perfusion.Increasing the pore sizes of bone-mimetic electrospun scaffolds comprised of polycaprolactone, collagen I and hydroxyapatite to enhance cell infiltration.Large strain stimulation promotes extracellular matrix production and stiffness in an elastomeric scaffold model.Anisotropic fibrous scaffolds for articular cartilage regeneration.Dynamic culture induces a cell type-dependent response impacting on the thickness of engineered connective tissues.A novel electrospun-aligned nanoyarn/three-dimensional porous nanofibrous hybrid scaffold for annulus fibrosus tissue engineering.Enhancing cell infiltration of electrospun fibrous scaffolds in tissue regeneration.Preferential cell response to anisotropic electro-spun fibrous scaffolds under tension-free conditions
P2860
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P2860
Dynamic culture enhances stem cell infiltration and modulates extracellular matrix production on aligned electrospun nanofibrous scaffolds.
description
2010 nî lūn-bûn
@nan
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
2010年论文
@zh
2010年论文
@zh-cn
name
Dynamic culture enhances stem ...... trospun nanofibrous scaffolds.
@en
type
label
Dynamic culture enhances stem ...... trospun nanofibrous scaffolds.
@en
prefLabel
Dynamic culture enhances stem ...... trospun nanofibrous scaffolds.
@en
P2093
P2860
P1433
P1476
Dynamic culture enhances stem ...... ctrospun nanofibrous scaffolds
@en
P2093
Dawn M Elliott
Nandan L Nerurkar
Sounok Sen
P2860
P304
P356
10.1016/J.ACTBIO.2010.08.011
P577
2010-08-20T00:00:00Z