Alignment of astrocytes increases neuronal growth in three-dimensional collagen gels and is maintained following plastic compression to form a spinal cord repair conduit.
about
Building stable anisotropic tissues using cellular collagen gels3D in vitro modeling of the central nervous systemIntroduction to cell-hydrogel mechanosensingAstrocytes increase ATP exocytosis mediated calcium signaling in response to microgroove structures.Anisotropically organized three-dimensional culture platform for reconstruction of a hippocampal neural network.Transplantable living scaffolds comprised of micro-tissue engineered aligned astrocyte networks to facilitate central nervous system regenerationPhotographic-Based Optical Evaluation of Tissues and Biomaterials Used for Corneal Surface Repair: A New Easy-Applied Method.Nanofibrous collagen nerve conduits for spinal cord repairCell Alignment Driven by Mechanically Induced Collagen Fiber Alignment in Collagen/Alginate Coatings.Rebuilding Brain Circuitry with Living Micro-Tissue Engineered Neural Networks.Microtissue engineered constructs with living axons for targeted nervous system reconstruction.Engineered 3D Silk-collagen-based Model of Polarized Neural Tissue.Experimental therapies for repair of the central nervous system: stem cells and tissue engineering.Extracellular matrices, artificial neural scaffolds and the promise of neural regeneration.Tissue Engineering the Cornea: The Evolution of RAFT.In vitro models of axon regeneration.Optimising contraction and alignment of cellular collagen hydrogels to achieve reliable and consistent engineered anisotropic tissue.A three-dimensional collagen construct to model lipopolysaccharide-induced activation of BV2 microglia.Living scaffolds for neuroregeneration.Control of olfactory ensheathing cell behaviors by electrospun silk fibroin fibers.Human dental pulp stem cells can differentiate into Schwann cells and promote and guide neurite outgrowth in an aligned tissue-engineered collagen construct in vitroProtocol and cell responses in three-dimensional conductive collagen gel scaffolds with conductive polymer nanofibres for tissue regeneration.Engineering a microvascular capillary bed in a tissue-like collagen construct.Adapting tissue-engineered in vitro CNS models for high-throughput study of neurodegeneration.Engineering an integrated cellular interface in three-dimensional hydrogel cultures permits monitoring of reciprocal astrocyte and neuronal responses.Astrocytes alignment and reactivity on collagen hydrogels patterned with ECM proteins.Mechanical elongation of astrocyte processes to create living scaffolds for nervous system regeneration.Embryonic and mature astrocytes exert different effects on neuronal growth in rat ventral mesencephalic slice cultures.Challenges in the development of a reference standard and potency assay for the clinical production of RAFT tissue equivalents for the cornea.Astrocyte behavior and GFAP expression on Spirulina extract-incorporated PCL nanofiber.Using Biomaterials to Promote Pro-Regenerative Glial Phenotypes After Nervous System Injuries.Three-dimensional Tissue Engineered Aligned Astrocyte Networks to Recapitulate Developmental Mechanisms and Facilitate Nervous System Regeneration.A collagen telopeptide binding peptide shows potential in aiding collagen bundle formation and fibril orientation.Biomaterial-Supported Cell Transplantation Treatments for Spinal Cord Injury: Challenges and Perspectives.Intrinsic Inflammation Is a Potential Anti-Epileptogenic Target in the Organotypic Hippocampal Slice Model.Astrocyte spreading and migration on aggrecan-laminin dot gradients.3D Electrospun scaffolds promote a cytotrophic phenotype of cultured primary astrocytes.Engineered neural tissue with Schwann cell differentiated human dental pulp stem cells: potential for peripheral nerve repair?Human Neural Tissue Construct Fabrication Based on Scaffold-Free Tissue Engineering.[New biomaterials and alternative stem cell sources for the reconstruction of the limbal stem cell niche].
P2860
Q27009227-0A63F313-A423-41E8-816D-C9501B626717Q27026457-AE908E15-F6AF-4339-9E3E-6799F3C7E136Q28383759-9B7BD6A4-797D-43B9-A168-B4DB8A8D1F32Q30616202-1DA73CEB-8CD7-4047-BF45-03442A7782ADQ30837882-82547459-3FCE-43DA-BE02-1F21823C0357Q33759863-08C93968-9B1C-485F-8200-9EA91763AC90Q35840908-A6000758-6DDB-4791-B7A4-75F3496A2E8BQ35916978-4F581BAB-9A82-4977-9CC7-E425B86B6458Q36006822-408F24AE-D68D-4A85-BC29-566896162BCDQ36298088-394D8F99-94F0-4837-8ADB-C08A58143DE2Q36352587-18E1E68A-F36E-4F90-A506-777098F6A2E2Q36408256-D89A8079-8235-470B-B201-72092AB96F74Q37998983-564D7EB3-8AC6-4FFD-9E03-E99E89283AC9Q38264907-648C24B0-2FC1-4857-9C74-7EB7ED425E84Q38391335-CE17637E-0414-44E4-9398-4030F54A866EQ38716618-0E5C0816-63BB-4CB3-BA23-8920ACC9196EQ38846125-D0FF2812-27C0-4DA5-99B1-ECEBC7AF01FEQ38970466-B52ADCBA-D791-46E0-8A05-0B5271478D72Q39092755-560444CC-D06E-48C2-91EA-5AAB8A8FE639Q39327386-846388AF-BD3A-4E92-A872-66A4955E4616Q40327488-700BAC28-80CA-4754-B53A-88D22B1C6C8BQ41861651-C1A5759E-3890-410B-AB1B-05F62526F5F6Q42013353-30A0D8D7-509D-4452-8680-6445780DF57CQ42027082-82B1B86E-E877-4770-8187-F56ED4D62563Q42180537-79697D1E-C0A5-4328-A955-BB0646F5C5F5Q42551553-7E82BF2D-4AB0-4629-89FE-2DDBD7658732Q42573077-BE0F30BF-8BDC-426D-B563-27F39CE6AF5DQ42587323-13B6E6D8-9714-4DC3-815A-7D8490AFE10CQ42803695-B0DBFA7A-CADC-4C35-A8AD-B98226E0CDBAQ45913622-60773FE8-244F-4C64-A34D-464C9E03C3C9Q47303103-2312AD3E-C7DD-4BCE-81B9-2310002D21DBQ47647935-9E67D607-DA4B-4F32-A27C-E85A71CEF4E4Q47986983-E7A31C6A-B7F7-44BE-8FD9-258147B3BEE2Q49164561-9E442808-DCE8-4247-B13E-CBD3A013E605Q49721281-3B907540-52A8-4950-9FB5-1C2840834FE9Q50150187-1B7EAFB8-C77A-4988-AD31-611402278381Q50657104-6430AF26-A741-4C0F-8AF9-58B49BD15E2FQ50973088-577BF098-F11C-4D2B-BF09-56F68434B9A1Q51283016-13CBF802-746D-4687-B028-74C71BBA6473Q52883849-C6291612-9C98-41A5-AAD0-1CB71414DF8C
P2860
Alignment of astrocytes increases neuronal growth in three-dimensional collagen gels and is maintained following plastic compression to form a spinal cord repair conduit.
description
2010 nî lūn-bûn
@nan
2010年の論文
@ja
2010年学术文章
@wuu
2010年学术文章
@zh-cn
2010年学术文章
@zh-hans
2010年学术文章
@zh-my
2010年学术文章
@zh-sg
2010年學術文章
@yue
2010年學術文章
@zh
2010年學術文章
@zh-hant
name
Alignment of astrocytes increa ...... a spinal cord repair conduit.
@en
Alignment of astrocytes increa ...... a spinal cord repair conduit.
@nl
type
label
Alignment of astrocytes increa ...... a spinal cord repair conduit.
@en
Alignment of astrocytes increa ...... a spinal cord repair conduit.
@nl
prefLabel
Alignment of astrocytes increa ...... a spinal cord repair conduit.
@en
Alignment of astrocytes increa ...... a spinal cord repair conduit.
@nl
P2860
P1476
Alignment of astrocytes increa ...... a spinal cord repair conduit.
@en
P2093
Daniela Blum de Oliveira
P2860
P304
P356
10.1089/TEN.TEA.2010.0017
P577
2010-10-01T00:00:00Z