Peripheral nerve regeneration within an asymmetrically porous PLGA/Pluronic F127 nerve guide conduit.
about
A biomaterials approach to peripheral nerve regeneration: bridging the peripheral nerve gap and enhancing functional recoveryPeripheral nerve conduits: technology updateA review of bioactive release from nerve conduits as a neurotherapeutic strategy for neuronal growth in peripheral nerve injuryA biosynthetic nerve guide conduit based on silk/SWNT/fibronectin nanocomposite for peripheral nerve regenerationStudy in vivo intraocular biocompatibility of in situ gelation hydrogels: poly(2-ethyl oxazoline)-block-poly(ε-caprolactone)-block-poly(2-ethyl oxazoline) copolymer, matrigel and pluronic F127Peripheral Nerve Regeneration Strategies: Electrically Stimulating Polymer Based Nerve Growth ConduitsAcceleration of peripheral nerve regeneration through asymmetrically porous nerve guide conduit applied with biological/physical stimulationLong-Term Regeneration and Functional Recovery of a 15 mm Critical Nerve Gap Bridged by Tremella fuciformis Polysaccharide-Immobilized Polylactide Conduits.A 3D-engineered porous conduit for peripheral nerve repair.Dynamic culture of a thermosensitive collagen hydrogel as an extracellular matrix improves the construction of tissue-engineered peripheral nerve.Effect of surface pore structure of nerve guide conduit on peripheral nerve regenerationLaser perforated accordion nerve conduit of poly(lactide-co-glycolide-co-ɛ-caprolactone).Biomaterials for the development of peripheral nerve guidance conduits.Spatiotemporal expression profiling of proteins in rat sciatic nerve regeneration using reverse phase protein arrays.A comparison of the performance of mono- and bi-component electrospun conduits in a rat sciatic model.Novel flexible nerve conduits made of water-based biodegradable polyurethane for peripheral nerve regeneration.A Controlled Design of Aligned and Random Nanofibers for 3D Bi-functionalized Nerve Conduits Fabricated via a Novel Electrospinning Set-up.A novel internal fixator device for peripheral nerve regeneration.Medical application of microbial biopolyesters polyhydroxyalkanoates.PD98059-impregnated functional PLGA scaffold for direct tissue engineering promotes chondrogenesis and prevents hypertrophy from mesenchymal stem cells.Fabrication and evaluation of PLLA multichannel conduits with nanofibrous microstructure for the differentiation of NSCs in vitro.Development of biomaterial scaffold for nerve tissue engineering: Biomaterial mediated neural regeneration.Fibrin glue as a stabilization strategy in peripheral nerve repair when using porous nerve guidance conduits.Nanoparticle-Based Topical Ophthalmic Gel Formulation for Sustained Release of Hydrocortisone ButyrateMicro-structural geometry of thin films intended for the inner lumen of nerve conduits affects nerve repair.A silk sericin/silicone nerve guidance conduit promotes regeneration of a transected sciatic nerve.Functional recovery guided by an electrospun silk fibroin conduit after sciatic nerve injury in rats.Axially aligned electrically conducting biodegradable nanofibers for neural regeneration.Effect of Platelet Rich Plasma and Platelet Rich Fibrin on sciatic nerve regeneration in a rat model.Phenotypic changes of Schwann cells on the proximal stump of injured peripheral nerve during repair using small gap conduit tube.Dual growth factor-immobilized asymmetrically porous membrane for bone-to-tendon interface regeneration on rat patellar tendon avulsion model.Enhanced peripheral nerve regeneration through asymmetrically porous nerve guide conduit with nerve growth factor gradient.PLGA artificial nerve conduits with dental pulp cells promote facial nerve regeneration.Fabrication of transparent hemispherical 3D nanofibrous scaffolds with radially aligned patterns via a novel electrospinning method.PEOT/PBT Guides Enhance Nerve Regeneration in Long Gap Defects.Peripheral Nerve Regeneration: Current Status and New Strategies Using Polymeric Materials.Nanofibrous nerve conduit-enhanced peripheral nerve regeneration.Composition-property relationships for an experimental composite nerve guidance conduit: evaluating cytotoxicity and initial tensile strength.Preparation of electrospun PLGA-silk fibroin nanofibers-based nerve conduits and evaluation in vivoPolymers for Fabricating Nerve Conduits
P2860
Q24625076-932B4C6F-4824-47AB-B9B3-8DDDD0A8E03DQ26995415-EE26259D-61F7-446D-A055-7D4F93977B77Q27027789-1668CEE3-7EDA-43C2-9AFA-E671B5DBCEAFQ28533936-806F0B32-E9E2-40B9-BA03-435B5873A083Q28534435-F39CAC0C-CC85-4181-B4BA-83C4D4145D8CQ28818218-CA6DAF87-FE63-4BE6-8E47-217B51FD29E4Q30424419-3E318755-F721-46CA-AF2A-B2508608166DQ30544120-3026F626-E1EB-4732-AAF3-FE7E3A9465AFQ33555407-AAE7842F-7B3F-43E7-B9EE-3FD5383FC0AEQ34163233-E37010F8-A433-4FD3-9613-C82E7A86AB0EQ34370253-5429A819-49F5-466D-91F2-4E780D234F7AQ35116912-1A960BA4-7FE3-4213-894D-8A23E05FFD4EQ35685755-C22FAAEA-A6BD-468E-BC63-E7C1F2D50C13Q35809020-AA23DBB8-115B-4A3B-90CF-95791592656BQ36202049-954CC687-6318-40C7-989A-E21835EAA533Q36268092-A0E25B85-59D4-4ABB-9706-36FB6548B3DFQ36736180-3E344FBC-5733-4124-9669-B14208FDFE26Q36776819-28972F49-E315-4877-BA92-F5E340312C67Q37365335-1DC2218F-F350-418F-81FC-DE24E409163EQ37610650-E286FCBF-FCE9-4BE6-BC2B-B3775396BB26Q37610707-9F87FD24-5530-412A-BBF4-701EF4C6FF95Q37638783-28A87AD9-BCEC-4E43-B717-78DF60843D2FQ37742257-1794FFBE-3881-4BD0-8C9E-498387D9FC38Q38862840-7D9D596E-55BA-4915-9B30-8E7BA771AA85Q39168787-E0F5970E-4374-41C5-A49B-1FC9A17FDC1EQ41996258-FC949CE0-7826-4F35-9A6C-04324A9D1DBBQ42011122-A11BB8DE-A94E-4D92-A45C-4A7A3A43826BQ43579413-2A2F034D-83BE-478A-9C75-F54CB108F11EQ45105562-D9C40F7B-05A4-4BA1-B8AF-3F1679861127Q47153861-C8CEE2FF-8C0D-41D6-B601-201C40A9AC97Q47705638-76205489-D9CD-4390-8ECA-584D2CAA15FEQ47712058-1B3E4734-A222-411C-A588-6E4ED50938BDQ50268966-64B57FAE-01BC-45C3-977C-0BB32CB8F3DAQ50350245-7594EFB2-8A18-4C08-8008-E90B0CAE994BQ51011793-63E9AB08-BE81-48B7-9A58-599C614E755AQ51171088-EC29A579-19FB-4F23-AC0B-A203FC9C42DCQ51588519-1AF73DFA-1465-46AC-9DA2-26D59760DDB5Q51596810-6B4D6C91-6D21-47EE-AE84-6E92F75BBF55Q57218203-EBD364FE-47C8-4AC3-9F36-39DC1F553B7FQ58651805-29BE2F17-611E-4D34-B216-0BB7744F20FC
P2860
Peripheral nerve regeneration within an asymmetrically porous PLGA/Pluronic F127 nerve guide conduit.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh-hant
name
Peripheral nerve regeneration ...... onic F127 nerve guide conduit.
@en
Peripheral nerve regeneration ...... onic F127 nerve guide conduit.
@nl
type
label
Peripheral nerve regeneration ...... onic F127 nerve guide conduit.
@en
Peripheral nerve regeneration ...... onic F127 nerve guide conduit.
@nl
prefLabel
Peripheral nerve regeneration ...... onic F127 nerve guide conduit.
@en
Peripheral nerve regeneration ...... onic F127 nerve guide conduit.
@nl
P2093
P1433
P1476
Peripheral nerve regeneration ...... onic F127 nerve guide conduit.
@en
P2093
Il Woo Lee
Jin Ho Lee
Jin Hwan Yoon
Jun Ho Kim
Kyu Sang Song
Se Heang Oh
Tae Beom Seo
Uk Namgung
P304
P356
10.1016/J.BIOMATERIALS.2007.11.036
P577
2007-12-21T00:00:00Z