about
Regeneration strategies after the adult mammalian central nervous system injury-biomaterialsDeveloping Extracellular Matrix Technology to Treat Retinal or Optic Nerve Injury(1,2,3)Concentration-dependent rheological properties of ECM hydrogel for intracerebral delivery to a stroke cavityDural repair using porcine ADM: two cases and a literature review.shRNA against PTEN promotes neurite outgrowth of cortical neurons and functional recovery in spinal cord contusion rats.Solubilized liver extracellular matrix maintains primary rat hepatocyte phenotype in-vitro.Extracellular matrix based biomaterials for central nervous system tissue repair: the benefits and drawbacks.Effects of an injectable functionalized self-assembling nanopeptide hydrogel on angiogenesis and neurogenesis for regeneration of the central nervous system.The effect of cell debris within biologic scaffolds upon the macrophage response.Diamagnetic chemical exchange saturation transfer (diaCEST) affords magnetic resonance imaging of extracellular matrix hydrogel implantation in a rat model of stroke.Nerve-specific, xenogeneic extracellular matrix hydrogel promotes recovery following peripheral nerve injury.Urinary bladder extracellular matrix hydrogels and matrix-bound vesicles differentially regulate central nervous system neuron viability and axon growth and branching.Restoring Mucosal Barrier Function and Modifying Macrophage Phenotype with an Extracellular Matrix Hydrogel: Potential Therapy for Ulcerative Colitis.Brain and spinal cord injury repair by implantation of human neural progenitor cells seeded onto polymer scaffolds.Fetal extracellular matrix nerve wraps locally improve peripheral nerve remodeling after complete transection and direct repair in rat.Biomaterial Scaffolds in Regenerative Therapy of the Central Nervous System.
P2860
Q26752004-4E0C9B2A-65F9-4082-9C3D-49E99D0FF3A1Q26781911-5E31FBC7-6A1A-4028-892D-84A29EF924E9Q36173717-E36E542C-B856-4315-9A6F-3A8C471EFE9DQ39121371-62B3E205-7131-49AB-99F8-F9EF64327E81Q42177205-DC7F652D-BA9B-4B0F-94B9-C4AC815D5289Q46618879-87A951C0-C65C-4F67-A375-6CC4D51B402EQ47098454-AABE5E12-549C-41CC-9DBE-7DD5ED94839CQ47431599-05361477-316D-4A25-A5BD-5D8DC9D7F29EQ48160758-608D135E-93F4-40CD-BA36-A1347E96DA58Q48439092-6024A6F5-7829-45C3-BFCA-40C29F897B7FQ49552462-4116F91E-893D-4064-9B70-E35D4BD171C9Q50900169-D332C422-8E24-4146-B88E-B09B54790FEAQ51191479-4D15F105-D1AA-4CBD-8F9A-F4978727227CQ52315021-14D7FA79-F192-4C23-AA9D-2DFA6BB5E2D8Q55032448-6BA53B8D-0CF1-435A-8FF3-7AAB22485293Q55237143-71D017AF-D90A-4611-9F1B-3F7B8617E5D6
P2860
description
2014 nî lūn-bûn
@nan
2014年の論文
@ja
2014年学术文章
@wuu
2014年学术文章
@zh-cn
2014年学术文章
@zh-hans
2014年学术文章
@zh-my
2014年学术文章
@zh-sg
2014年學術文章
@yue
2014年學術文章
@zh
2014年學術文章
@zh-hant
name
Biologic scaffold for CNS repair.
@en
type
label
Biologic scaffold for CNS repair.
@en
prefLabel
Biologic scaffold for CNS repair.
@en
P2860
P356
P1476
Biologic scaffold for CNS repair
@en
P2093
Fanwei Meng
P2860
P304
P356
10.2217/RME.14.9
P577
2014-05-01T00:00:00Z