Keywords: مهندسی بافت عصبی; Nano-composite scaffold; Polyglycerol sebacate; Chitosan; Electrospinning; Nerve tissue engineering;
مقالات ISI مهندسی بافت عصبی (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
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در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: مهندسی بافت عصبی; Collagen; Stem cell; Nerve guide; Nerve regeneration; Nerve tissue engineering; Adipose-derived stem cell;
Keywords: مهندسی بافت عصبی; Nerve regeneration; Nerve tissue engineering; Nerve guide; Microstructure; Neural cell; Schwann cell;
Keywords: مهندسی بافت عصبی; Nerve tissue engineering; Neural cell; Stem cell; Infection;
Keywords: مهندسی بافت عصبی; Collagen; Schwann cell; Nerve guide; Nerve regeneration; Nerve tissue engineering; Hydrogel;
Keywords: مهندسی بافت عصبی; In vitro test; Nerve tissue engineering; Neural cell; Stem cell;
Keywords: مهندسی بافت عصبی; Nerve regeneration; Nerve tissue engineering; Nanomaterial; Electrical stimulation; SWCNT; Neuron
Use of a capillary alginate gel (Capgelâ¢) to study the three-dimensional development of sensory nerves reveals the formation of a rudimentary perineurium
Keywords: مهندسی بافت عصبی; Nerve regeneration; Nerve tissue engineering; Nerve guide; Neuron; Myelin; Perineurium;
Tailoring the wettability and mechanical properties of electrospun poly(l-lactic acid)-poly(glycerol sebacate) core-shell membranes for biomedical applications
Keywords: مهندسی بافت عصبی; Electrospun membranes; Core-shell electrospun materials; Superhydrophilic; Nerve tissue engineering;
Biomaterials and cells for neural tissue engineering: Current choices
Keywords: مهندسی بافت عصبی; Nerve tissue engineering; Synthetic and natural polymers; Biomaterials; Hydrogels; Nanofibers;
Aligned PLLA nanofibrous scaffolds coated with graphene oxide for promoting neural cell growth
Keywords: مهندسی بافت عصبی; Graphene oxide; Aligned nanofibers; Nerve tissue engineering; Electrospinning; Aminolysis
Human tissue engineering allows the identification of active miRNA regulators of glioblastoma aggressiveness
Keywords: مهندسی بافت عصبی; Nerve tissue engineering; Glioblastoma; MicroRNAs; Ultra-deep sequencing;
The influence of electrospun fibre size on Schwann cell behaviour and axonal outgrowth
Keywords: مهندسی بافت عصبی; Electrospun fibres; Extracellular matrix; Cell adhesion; Cell spreading; Axon outgrowth; Nerve tissue engineering
Improved preparation of acellular nerve scaffold and application of PKH26 fluorescent labeling combined with in vivo fluorescent imaging system in nerve tissue engineering
Keywords: مهندسی بافت عصبی; Nerve tissue engineering; Scaffolds; Freeze-drying; PKH26; In vivo fluorescent imaging; ADSCs; adipose-derived stem cells;
Astrocyte infiltration into injectable collagen-based hydrogels containing FGF-2 to treat spinal cord injury
Keywords: مهندسی بافت عصبی; Collagen; Fibroblast growth factor; Nerve tissue engineering; Chemotaxis; In vitro test; Spinal cord injury;
Three-dimensional neuron–muscle constructs with neuromuscular junctions
Keywords: مهندسی بافت عصبی; Neural cell; Muscle; Co-culture; Nerve tissue engineering
Spatial gradients of chemotropic factors from immobilized patterns to guide axonal growth and regeneration
Keywords: مهندسی بافت عصبی; Nerve growth factor; Nerve tissue engineering; Micropatterning; Growth factors; Cell culture
Tuning supramolecular mechanics to guide neuron development
Keywords: مهندسی بافت عصبی; Self assembly; Peptide amphiphile; Stiffness; Neuronal polarity; Nerve tissue engineering
Control of three-dimensional substrate stiffness to manipulate mesenchymal stem cell fate toward neuronal or glial lineages
Keywords: مهندسی بافت عصبی; Nerve tissue engineering; 3-D scaffold; Mechanical property; Substrate stiffness; Mesenchymal stem cell
Recellularized nerve allografts with differentiated mesenchymal stem cells promote peripheral nerve regeneration
Keywords: مهندسی بافت عصبی; Acellular nerve graft; Differentiation; Nerve tissue engineering; Peripheral nerve regeneration; Stem cells;
The reparative response to cross-linked collagen-based scaffolds in a rat spinal cord gap model
Keywords: مهندسی بافت عصبی; Collagen; Scaffold; Nerve tissue engineering; Nerve guide; Stem cells; Growth factors
A hybrid nanofiber matrix to control the survival and maturation of brain neurons
Keywords: مهندسی بافت عصبی; Self assembly; Laminin; Collagen; Peptide amphiphile; Nerve tissue engineering; BrainPA, peptide amphiphile; PC, purkinje cell; GC, granule cell; DIV, days in vitro; ECM, extracellular matrix
Biochemical engineering nerve conduits using peptide amphiphiles
Keywords: مهندسی بافت عصبی; Drug delivery; Peptide amphiphiles; Nerve conduit; Biochemical engineering; Nerve tissue engineering;
Electrospun conducting polymer nanofibers and electrical stimulation of nerve stem cells
Keywords: مهندسی بافت عصبی; Polyaniline; Conducting polymer; Poly-l-lactide; Neurite elongation; Nerve tissue engineering
The regeneration of transected sciatic nerves of adult rats using chitosan nerve conduits seeded with bone marrow stromal cell-derived Schwann cells
Keywords: مهندسی بافت عصبی; Peripheral nerve injury; Nerve tissue engineering; Nerve regeneration; Bone marrow stromal cell; Chitosan; Biomaterials
Induced pluripotent stem cells for neural tissue engineering
Keywords: مهندسی بافت عصبی; Stem cells; Scaffold; Nerve guide; Nerve tissue engineering; Nanofibers; Neural crest stem cell
Neuromuscular junction formation between human stem cell-derived motoneurons and human skeletal muscle in a defined system
Keywords: مهندسی بافت عصبی; Stem cell; Co-culture; In vitro; Nerve tissue engineering; Skeletal muscle; In vitro test
The promotion of axon extension in vitro using polymer-templated fibrin scaffolds
Keywords: مهندسی بافت عصبی; Fibrin; Micropatterning; Nerve guide; Nerve tissue engineering; Scaffold
The performance of laminin-containing cryogel scaffolds in neural tissue regeneration
Keywords: مهندسی بافت عصبی; Bioactivity; Biocompatibility; Transplantation; Cross-linking; Nerve tissue engineering; Stem cell
Bio-functionalized PCL nanofibrous scaffolds for nerve tissue engineering
Keywords: مهندسی بافت عصبی; Alkaline hydrolysis; PCL; Nanofibrous scaffolds; Matrigel; Nerve tissue engineering
A defined long-term in vitro tissue engineered model of neuromuscular junctions
Keywords: مهندسی بافت عصبی; In vitro test; Muscle; Nerve tissue engineering; Neural cell; Surface modification; Self assembly;
The use of injectable forms of fibrin and fibronectin to support axonal ingrowth after spinal cord injury
Keywords: مهندسی بافت عصبی; Fibrin; Fibronectin; Spinal surgery; Nerve tissue engineering
Growth of rat dorsal root ganglion neurons on a novel self-assembling scaffold containing IKVAV sequence
Keywords: مهندسی بافت عصبی; Dorsal root ganglion; Neuron; Self-assembly; Scaffold; Nerve tissue engineering
Node of Ranvier formation on motoneurons in vitro
Keywords: مهندسی بافت عصبی; Schwann cells; Nerve tissue engineering; Silane; Biomimetic material; Growth factors; Co-culture
Electrophysiological characterization of embryonic hippocampal neurons cultured in a 3D collagen hydrogel
Keywords: مهندسی بافت عصبی; Memory; Nerve tissue engineering; Neuronal network; Collagen; Electrophysiology; Three dimensional;
Biocompatibility of biodegradable semiconducting melanin films for nerve tissue engineering
Keywords: مهندسی بافت عصبی; Electroactive polymer; Biocompatibility; Nerve tissue engineering;
Mesenchymal stem cell differentiation to neuronal cells on electrospun nanofibrous substrates for nerve tissue engineering
Keywords: مهندسی بافت عصبی; Mesenchymal stem cells; Neuronal cells; Nerve tissue engineering; Electrospun nanofibers; Inducing factors; Differentiation
Engineering retinal progenitor cell and scrollable poly(glycerol-sebacate) composites for expansion and subretinal transplantation
Keywords: مهندسی بافت عصبی; Biodegradation; Cell adhesion; Elastomer; Stem cell; Nerve tissue engineering; Ophthalmology
Polypyrrole-coated electrospun PLGA nanofibers for neural tissue applications
Keywords: مهندسی بافت عصبی; Polypyrrole; Nanofibers; Nerve tissue engineering; Electrical stimulation; PC12 cells; Hippocampal neurons;
Development of porous PEG hydrogels that enable efficient, uniform cell-seeding and permit early neural process extension
Keywords: مهندسی بافت عصبی; Porosity; Biomaterials; Nerve tissue engineering; Cell encapsulation; Cell morphology
Chitosan/polyglycolic acid nerve grafts for axon regeneration from prolonged axotomized neurons to chronically denervated segments
Keywords: مهندسی بافت عصبی; Nerve tissue engineering; Nerve regeneration; Long-term axotomy; Chronic denervation; Artificial nerve graft; Reinnervation
Electrospun poly(ɛ-caprolactone)/gelatin nanofibrous scaffolds for nerve tissue engineering
Keywords: مهندسی بافت عصبی; Nerve tissue engineering; Electrospinning; Nanofiber; PCL; Gelatin
Biodegradable poly-β-hydroxybutyrate scaffold seeded with Schwann cells to promote spinal cord repair
Keywords: مهندسی بافت عصبی; Animal model; Spinal cord injury; Nerve tissue engineering; Neural prosthesis; Transplantation
Use of hybrid chitosan membranes and N1E-115 cells for promoting nerve regeneration in an axonotmesis rat model
Keywords: مهندسی بافت عصبی; Nerve; Nerve regeneration; Nerve tissue engineering; Chitosan; Animal model
Polylysine-functionalised thermoresponsive chitosan hydrogel for neural tissue engineering
Keywords: مهندسی بافت عصبی; Chitosan; Hydrogel; Thermally responsive material; Nerve tissue engineering; Nerve; Biocompatibility
Neurite guidance on protein micropatterns generated by a piezoelectric microdispenser
Keywords: مهندسی بافت عصبی; Micropatterning; Nerve tissue engineering; Nerve regeneration; Protein; Cell adhesion
Combinatorial protein display for the cell-based screening of biomaterials that direct neural stem cell differentiation
Keywords: مهندسی بافت عصبی; Cell adhesion; Extracellular matrix (ECM); Growth factors; Patterning; Nerve tissue engineering; Stem cell
Synthesis of cell-adhesive dextran hydrogels and macroporous scaffolds
Keywords: مهندسی بافت عصبی; Dextran; Cell adhesion; Macroporous structure; Nerve tissue engineering
Combination of engineered neural cell adhesion molecules and GDF-5 for improved neurite extension in nerve guide concepts
Keywords: مهندسی بافت عصبی; Cell adhesion; Nerve guide; Nerve tissue engineering; Recombinant protein
The promotion of oriented axonal regrowth in the injured spinal cord by alginate-based anisotropic capillary hydrogels
Keywords: مهندسی بافت عصبی; Self-assembly; Stem cell; Nerve regeneration; Nerve tissue engineering; Hydrogel; Alginate