| scholarly article | Q13442814 |
| P356 | DOI | 10.1021/BM1010323 |
| P953 | full work available at URL | https://pubs.acs.org/doi/pdf/10.1021/bm1010323 |
| P698 | PubMed publication ID | 21070042 |
| P2093 | author name string | Vasif Hasirci | |
| Deniz Yucel | |||
| Gamze Torun Kose | |||
| P2860 | cites work | Laminin-incorporated nerve conduits made by plasma treatment for repairing spinal cord injury | Q80233919 |
| Tissue-engineering approaches for axonal guidance | Q81860467 | ||
| Manufacture of PLGA multiple-channel conduits with precise hierarchical pore architectures and in vitro/vivo evaluation for spinal cord injury | Q83302060 | ||
| Neural tissue engineering: strategies for repair and regeneration | Q28207262 | ||
| Directed growth and selective differentiation of neural progenitor cells on micropatterned polymer substrates | Q28235037 | ||
| The influence of microchannels on neurite growth and architecture | Q28280590 | ||
| Electrospinning of nano/micro scale poly(L-lactic acid) aligned fibers and their potential in neural tissue engineering | Q28297215 | ||
| Functional recovery following traumatic spinal cord injury mediated by a unique polymer scaffold seeded with neural stem cells | Q30476168 | ||
| Bone generation on PHBV matrices: an in vitro study. | Q33193931 | ||
| Tissue-engineered platforms of axon guidance | Q34775695 | ||
| Repair of chronic spinal cord injury | Q35190721 | ||
| An overview of tissue engineering approaches for management of spinal cord injuries | Q35809691 | ||
| Fetal spinal cord tissue in mini-guidance channels promotes longitudinal axonal growth after grafting into hemisected adult rat spinal cords | Q36931823 | ||
| Electrospun nanostructured scaffolds for tissue engineering applications | Q37038858 | ||
| Potential of stem cell based therapy and tissue engineering in the regeneration of the central nervous system. | Q37156188 | ||
| Axon regeneration through scaffold into distal spinal cord after transection | Q37389795 | ||
| Neuronal survival using a resorbable synthetic conduit as an alternative to primary nerve repair | Q40799241 | ||
| Neural stem cell- and Schwann cell-loaded biodegradable polymer scaffolds support axonal regeneration in the transected spinal cord | Q41838287 | ||
| Implantation of cultured sensory neurons and Schwann cells into lesioned neonatal rat spinal cord. II. Implant characteristics and examination of corticospinal tract growth | Q42465249 | ||
| Biodegradable poly-beta-hydroxybutyrate scaffold seeded with Schwann cells to promote spinal cord repair | Q43826990 | ||
| Alignment of glial cells stimulates directional neurite growth of CNS neurons in vitro. | Q44159882 | ||
| Templated agarose scaffolds support linear axonal regeneration | Q44482337 | ||
| Polyester based nerve guidance conduit design | Q44701724 | ||
| Creation of highly aligned electrospun poly-L-lactic acid fibers for nerve regeneration applications. | Q46185652 | ||
| Directed nerve outgrowth is enhanced by engineered glial substrates | Q48135855 | ||
| Glial cells express N-CAM/D2-CAM-like polypeptides in vitro | Q48461352 | ||
| Repair of adult rat corticospinal tract by transplants of olfactory ensheathing cells | Q48626271 | ||
| Ordered networks of rat hippocampal neurons attached to silicon oxide surfaces | Q49062273 | ||
| Evaluation of cellular organization and axonal regeneration through linear PLA foam implants in acute and chronic spinal cord injury. | Q51003843 | ||
| Oriented astroglial cell growth on micropatterned polystyrene substrates. | Q51037823 | ||
| Fabrication of semipermeable hollow fiber membranes with highly aligned texture for nerve guidance. | Q51365622 | ||
| Synaptic plasticity in micropatterned neuronal networks. | Q51570232 | ||
| Synthetic hydrogel guidance channels facilitate regeneration of adult rat brainstem motor axons after complete spinal cord transection. | Q51646848 | ||
| Astrocytes in culture synthesize and secrete a variant form of fibronectin | Q69900736 | ||
| A novel, biodegradable polymer conduit delivers neurotrophins and promotes nerve regeneration | Q73024214 | ||
| Peripheral nerve grafts for neural repair of spinal cord injury in neonatal rat: aiming at functional regeneration | Q74219344 | ||
| Synergistic effects of physical and chemical guidance cues on neurite alignment and outgrowth on biodegradable polymer substrates | Q74587828 | ||
| Regeneration in the spinal cord | Q77892139 | ||
| P433 | issue | 12 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | neural stem cell | Q2944097 |
| astrocyte | Q502961 | ||
| P304 | page(s) | 3584-3591 | |
| P577 | publication date | 2010-11-11 | |
| P1433 | published in | Biomacromolecules | Q1768006 |
| P1476 | title | Tissue engineered, guided nerve tube consisting of aligned neural stem cells and astrocytes | |
| Tissue Engineered, Guided Nerve Tube Consisting of Aligned Neural Stem Cells and Astrocytes | |||
| P478 | volume | 11 |
| Q42690434 | Alignment of the Fibrin Network Within an Autologous Plasma Clot |
| Q34104942 | Biomimetic micropatterned multi-channel nerve guides by templated electrospinning |
| Q62594027 | Electroactive polymers for tissue regeneration: Developments and perspectives |
| Q91588642 | Green Composites of Poly(3-hydroxybutyrate) Containing Graphene Nanoplatelets with Desirable Electrical Conductivity and Oxygen Barrier Properties |
| Q91587538 | Migration and Differentiation of Neural Stem Cells Diverted From the Subventricular Zone by an Injectable Self-Assembling β-Peptide Hydrogel |
| Q37588062 | Nerve guidance conduit with a hybrid structure of a PLGA microfibrous bundle wrapped in a micro/nanostructured membrane |
| Q26995415 | Peripheral nerve conduits: technology update |
| Q53462060 | Regulation of astrocyte activity via control over stiffness of cellulose acetate electrospun nanofiber. |
| Q42273602 | The e-incubator: a magnetic resonance imaging-compatible mini incubator |
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