Engineered disc-like angle-ply structures for intervertebral disc replacement.
about
Biological Treatment Approaches for Degenerative Disk Disease: A Literature Review of In Vivo Animal and Clinical DataA Systematic Review of the Effects of Exercise and Physical Activity on Non-Specific Chronic Low Back PainMechanical design criteria for intervertebral disc tissue engineeringRegional variations in the cellular, biochemical, and biomechanical characteristics of rabbit annulus fibrosusA radiopaque electrospun scaffold for engineering fibrous musculoskeletal tissues: Scaffold characterization and in vivo applications.Elastic, permeability and swelling properties of human intervertebral disc tissues: A benchmark for tissue engineering.In vitro characterization of a stem-cell-seeded triple-interpenetrating-network hydrogel for functional regeneration of the nucleus pulposus.Phenotypic stability, matrix elaboration and functional maturation of nucleus pulposus cells encapsulated in photocrosslinkable hyaluronic acid hydrogels.Dose-dependent response of tissue-engineered intervertebral discs to dynamic unconfined compressive loading.Tissue-engineered intervertebral discs produce new matrix, maintain disc height, and restore biomechanical function to the rodent spine.Fiber angle and aspect ratio influence the shear mechanics of oriented electrospun nanofibrous scaffoldsFiber stretch and reorientation modulates mesenchymal stem cell morphology and fibrous gene expression on oriented nanofibrous microenvironmentsA Structurally and Functionally Biomimetic Biphasic Scaffold for Intervertebral Disc Tissue Engineering.Gene expression modulation in TGF-β3-mediated rabbit bone marrow stem cells using electrospun scaffolds of various stiffness.Organized nanofibrous scaffolds that mimic the macroscopic and microscopic architecture of the knee meniscus.Modeling interlamellar interactions in angle-ply biologic laminates for annulus fibrosus tissue engineeringThe impact of discrete compartments of a multi-compartment collagen-GAG scaffold on overall construct biophysical properties.Intervertebral disc properties: challenges for biodevices.Role of biomechanics in intervertebral disc degeneration and regenerative therapies: what needs repairing in the disc and what are promising biomaterials for its repair?The role of stem cell therapies in degenerative lumbar spine disease: a review.Construction Strategy and Progress of Whole Intervertebral Disc Tissue Engineering.In vivo performance of an acellular disc-like angle ply structure (DAPS) for total disc replacement in a small animal model.Biomaterials for intervertebral disc regeneration and repair.Translation of an engineered nanofibrous disc-like angle-ply structure for intervertebral disc replacement in a small animal model.Dynamic culture enhances stem cell infiltration and modulates extracellular matrix production on aligned electrospun nanofibrous scaffolds.Homologous structure-function relationships between native fibrocartilage and tissue engineered from MSC-seeded nanofibrous scaffoldsBiological intervertebral disc replacement: an in vivo model and comparison of two surgical techniques to approach the rat caudal disc.The development of collagen-GAG scaffold-membrane composites for tendon tissue engineering.Total disc replacement using tissue-engineered intervertebral discs in the canine cervical spineBiaxial mechanics and inter-lamellar shearing of stem-cell seeded electrospun angle-ply laminates for annulus fibrosus tissue engineering.In Vitro Maturation and In Vivo Integration and Function of an Engineered Cell-Seeded Disc-like Angle Ply Structure (DAPS) for Total Disc Arthroplasty.Evaluation of Electrospun Nanofiber-Anchored Silicone for the Degenerative Intervertebral Disc.Towards engineering distinct multi-lamellated outer and inner annulus fibrosus tissues.Bioengineering a multicomponent spinal motion segment construct--a 3D model for complex tissue engineering.Biomimetic nanofibers can construct effective tissue-engineered intervertebral discs for therapeutic implantation.* Optimization of Preculture Conditions to Maximize the In Vivo Performance of Cell-Seeded Engineered Intervertebral Discs.A novel electrospun-aligned nanoyarn/three-dimensional porous nanofibrous hybrid scaffold for annulus fibrosus tissue engineering.Mechanical behaviour of electrospun fibre-reinforced hydrogels.Hydrogel Composite Materials for Tissue Engineering ScaffoldsModelling and Optimization of Polycaprolactone Ultrafine-Fibres Electrospinning Process Using Response Surface Methodology.
P2860
Q26738938-591DB852-E4AB-4278-92CB-1535380FAAB3Q26740270-506D2FD7-7A08-4033-BAFC-B55AD2C4923DQ27687808-75A92BEF-2EFA-47E2-9259-56137B3351D1Q28540801-609943F4-E983-4818-8F06-23F6612090FCQ30665643-6EE65959-6FA2-4ACB-B5BC-323F3A3A7062Q33717664-6206E7C4-F9C1-4955-B3DB-6991FFF4AB0DQ33861797-AD567BD8-BB1F-452B-91FB-11ACAA31E8F9Q34759045-7DD9A2FF-2CD6-4C4A-A9A9-B7E1EE944575Q35100250-115EA335-86BF-4766-A61A-F59A8DECF5BEQ35164708-D9D92BEF-B56B-464B-B903-36A7B79E17B8Q35566891-376EB414-40E9-4B76-80D3-C5ACA7FEFA17Q35609209-43EEF872-4058-4528-A456-1A08332E747DQ35675780-52BA5665-055B-4E5D-81CE-CDA5FB776709Q35879515-E357CD5B-0EC3-497C-9202-46193F9C2800Q36428751-BAF40AD0-793D-46CD-864D-DB60CA4FEEBBQ36441809-F586F587-F77A-46E6-8349-1DC46EEB4D66Q37651592-DF52D74B-A606-47FB-95E8-64E1328F5E24Q37871995-32195926-A079-45DB-9FA4-87C0473E220FQ38078104-F8F2DF45-F75A-4CB6-8853-E76832679C9BQ38370139-61128AD1-66D6-442E-B458-EAE80A60FFB6Q38793723-0FF98D44-BCB4-47B9-9F7B-7537B2F7A929Q38862210-E3AC83CE-81A8-454B-8778-55DC45B7FFD2Q39190870-0DDDC863-B00F-4A03-8C2D-D4EDA668C1F3Q40010086-D29EEABF-1A03-4DF0-BDD6-E97301CA1163Q41357257-9EB3C321-7846-4A9E-9B92-7A1DB1FEF99FQ41536307-66B94175-8518-4E55-B06C-FB61CEA51BF5Q42321294-0D12971C-1043-4FA2-9DA6-C8F962602520Q42416465-64D71B90-594F-4069-AFD7-5EA4177012B9Q42777595-3B9D19EB-4A12-4F64-9173-4385B9EEED4BQ43484391-6A56EDE6-6A48-4CCB-8C9E-4FB466D75BBFQ45717333-7B885196-B813-4334-A729-707CE47AABECQ46168901-CA868BD6-8CD5-4709-B062-75E7C3B1C65BQ47394962-DB9576AE-D8A6-4996-8A76-304F0B20DC69Q47596901-041085E3-487C-429D-A695-97568CD55543Q47745012-8093BF00-6031-428E-9276-92B1E1866446Q50655474-4595D798-04D3-44B6-9C6E-3CD77AE70913Q52626676-214A526E-C091-4CF3-967B-9764188D700EQ53101469-DCE5D443-95AE-472D-8260-57999A8BF153Q53101524-78606607-1F40-438F-9E7D-36C870517DAAQ55222467-A711FB4D-47AE-4074-96B8-F54E13F06DE8
P2860
Engineered disc-like angle-ply structures for intervertebral disc replacement.
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
Engineered disc-like angle-ply structures for intervertebral disc replacement.
@ast
Engineered disc-like angle-ply structures for intervertebral disc replacement.
@en
type
label
Engineered disc-like angle-ply structures for intervertebral disc replacement.
@ast
Engineered disc-like angle-ply structures for intervertebral disc replacement.
@en
prefLabel
Engineered disc-like angle-ply structures for intervertebral disc replacement.
@ast
Engineered disc-like angle-ply structures for intervertebral disc replacement.
@en
P2093
P2860
P1433
P1476
Engineered disc-like angle-ply structures for intervertebral disc replacement
@en
P2093
Dawn M Elliott
Nandan L Nerurkar
Sounok Sen
P2860
P304
P356
10.1097/BRS.0B013E3181D74414
P407
P577
2010-04-01T00:00:00Z