Fiber angle and aspect ratio influence the shear mechanics of oriented electrospun nanofibrous scaffolds - Wikidata - wikimedia - TriplyDB

Fiber angle and aspect ratio influence the shear mechanics of oriented electrospun nanofibrous scaffolds

Fiber angle and aspect ratio influence the shear mechanics of oriented electrospun nanofibrous scaffolds

http://www.wikidata.org/entity/Q35566891

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Meniscus repair using mesenchymal stem cells - a comprehensive review Design Requirements for Annulus Fibrosus Repair: Review of Forces, Displacements, and Material Properties of the Intervertebral Disk and a Summary of Candidate Hydrogels for Repair Regulation of fibrochondrogenesis of mesenchymal stem cells in an integrated microfluidic platform embedded with biomimetic nanofibrous scaffolds Effect of orientation and targeted extracellular matrix degradation on the shear mechanical properties of the annulus fibrosus Understanding nucleus pulposus cell phenotype: a prerequisite for stem cell based therapies to treat intervertebral disc degeneration Engineering meniscus structure and function via multi-layered mesenchymal stem cell-seeded nanofibrous scaffolds Rational design of nanofiber scaffolds for orthopedic tissue repair and regeneration PHBV/PAM scaffolds with local oriented structure through UV polymerization for tissue engineering.Restoration of the meniscus: form and function.Translation of an engineered nanofibrous disc-like angle-ply structure for intervertebral disc replacement in a small animal model.A novel device to quantify the mechanical properties of electrospun nanofibers.Evaluation of Electrospun Nanofiber-Anchored Silicone for the Degenerative Intervertebral Disc.Fabrication of dense anisotropic collagen scaffolds using biaxial compression.Biomimetic Rotated Lamellar Plywood Motifs by Additive Manufacturing of Metal Alloy Scaffolds for Bone Tissue Engineering.Effects of tetraethyl orthosilicate (TEOS) on the light and temperature stability of a pigment from Beta vulgaris and its potential food industry applications.Development of nanofiber-reinforced hydrogel scaffolds for nucleus pulposus regeneration by a combination of electrospinning and spraying technique Modeling electrospun nanofibers: An overview from theoretical, empirical, and numerical approaches

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P2860

Fiber angle and aspect ratio influence the shear mechanics of oriented electrospun nanofibrous scaffolds

http://www.wikidata.org/entity/Q35566891

description

2011 nî lūn-bûn

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name

Fiber angle and aspect ratio i ...... ctrospun nanofibrous scaffolds

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Fiber angle and aspect ratio i ...... ctrospun nanofibrous scaffolds

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type

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Fiber angle and aspect ratio i ...... ctrospun nanofibrous scaffolds

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Fiber angle and aspect ratio i ...... ctrospun nanofibrous scaffolds

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Fiber angle and aspect ratio i ...... ctrospun nanofibrous scaffolds

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Fiber angle and aspect ratio i ...... ctrospun nanofibrous scaffolds

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J.JMBBM.2011.03.022

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Journal of the Mechanical Behavior of Biomedical Materials

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Fiber angle and aspect ratio i ...... ctrospun nanofibrous scaffolds

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P2093

Dawn M Elliott

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

Nandan L Nerurkar

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Nathan T Jacobs

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P2860

Mechanical design criteria for intervertebral disc tissue engineering

Adjacent segment degeneration following spinal fusion for degenerative disc disease

Tissue engineering of the intervertebral disc with cultured annulus fibrosus cells using atelocollagen honeycomb-shaped scaffold with a membrane seal (ACHMS scaffold).

Mesoscopic spatial designs of nano- and microfiber meshes for tissue-engineering matrix and scaffold based on newly devised multilayering and mixing electrospinning techniques.

Engineering on the straight and narrow: the mechanics of nanofibrous assemblies for fiber-reinforced tissue regeneration.

Fabrication and modeling of dynamic multipolymer nanofibrous scaffolds

Biomechanical factors in tissue engineered meniscal repair.

The influence of an aligned nanofibrous topography on human mesenchymal stem cell fibrochondrogenesis.

Evaluation of the complex transcriptional topography of mesenchymal stem cell chondrogenesis for cartilage tissue engineering.

Material properties and structure-function relationships in the menisci.

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1627-1636

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scholarly article

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10.1016/J.JMBBM.2011.03.022

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8

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4

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Robert L. Mauck

Tristan P Driscoll

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2011-03-23T00:00:00Z

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51813191

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3221959

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