Keywords: داربستها; Tissue engineering; Scaffolds; Neural constructs 3 dimensional tissue structure;
مقالات ISI ترجمه شده داربستها
Keywords: داربستها; Forsterite; Biodegradability; Nanomaterials; Scaffolds
Keywords: داربستها; Polyurethane; Scaffolds; Tissue engineering; Porosity
Keywords: داربستها; Laser photocuring; Scaffolds; Titanate nanotubes; Tissue engineering; Cell culturing; Excimer laser
Keywords: داربستها; Scaffolds; Spatiotemporal control; Extracellular matrix; Tissue regeneration; Translational medicine
مقالات ISI داربستها (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
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.
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: داربستها; Degradable hydrogel; Polymers; Scaffolds; (Meth)acrylate/gelatin based hydrogels; Tissue engineering; Biomaterials;
Keywords: داربستها; Glycosaminoglycans; Tannic acid; Scaffolds; SaOS proliferation;
Keywords: داربستها; Chitosan; Cellulose; Scaffolds; Silver nanoparticles; Antibacterial activity;
Keywords: داربستها; Two-photon polymerization; Scaffolds; Fibroblasts; Hybrid polymer; Tissue engineering;
Keywords: داربستها; Feathers; Keratin; Hydrogels; Rheology; Thiol-chemistry; Scaffolds;
Keywords: داربستها; Cell differentiation; dental pulp; scaffolds; tissue engineering;
Keywords: داربستها; Basic Science Study; Biomechanics; Arthroscopic rotator cuff repair; shoulder; cadaver model; scaffolds; augmentation grafts; ECM grafts; load-sharing;
Keywords: داربستها; Forsterite; Multi-step sintering; Scaffolds; Porosity;
Keywords: داربستها; Biomaterials; Scaffolds; Mechanotransduction; Inflammation; Topography;
Keywords: داربستها; CS; Collin's salt; HA; hydroxyapatite; hBMSC; human bone marrow-derived stromal cells; ICP-OES; inductively coupled plasma with optical emission spectrometry; MIP; maximum intensity projections; Nano-CT; nano-computed tomography; SEM; scanning electron mi
Keywords: داربستها; Urinary diversion; Radical cystectomy; Tissue engineering; Regenerative medicine; Scaffolds;
Keywords: داربستها; Additive manufacturing; Digital light processing; Bioactive glass-ceramic; Scaffolds; Stereolithography;
Keywords: داربستها; Tissue Engineering; Urothelium; Acellular Matrices; Collagen; Scaffolds; Urinary Bladder; Ureter; Urethra; Neo-Urinary Conduit;
Keywords: داربستها; Polyelectrolyte complexes; Hydrogels; Scaffolds; Human adipose-derived stem cells;
Keywords: داربستها; Ulvan; Chitosan; Scaffolds; Enzyme; Biomimetic mineralization; Alkaline phosphatase; Polyelectrolyte complexes;
Keywords: داربستها; Tissue engineering; Stromal replacement; Cornea; Biomimetic; Scaffolds;
Keywords: داربستها; Chitosan; Collagen; Glycosaminoglycans; Scaffolds; Perfusion bioreactor;
Keywords: داربستها; Bioactive glasses; Scaffolds; Tissue engineering; Niobium; Angiogenesis;
Keywords: داربستها; Nerve regeneration; Graphene; Biomaterials; Graphene oxide based biomaterials; Reduced graphene oxide based biomaterials; Scaffolds;
Keywords: داربستها; Ankle; Cartilage; Bone marrow stimulation; Biologics; Scaffolds;
Keywords: داربستها; Solid freeform fabrication (SFF); Natural polymers; Starch; Hydroxyapatite (HA); Scaffolds; Bone and tissue engineering;
Keywords: داربستها; Chitosan; Graphene oxide; Scaffolds; Tissue engineering; Cytotoxicity;
Keywords: داربستها; Keratin; Hydrogels; Scaffolds; Protein conformation; Biomaterials; Rheology;
Keywords: داربستها; Bacterial cellulose; Calcium phosphates; Fillers; Scaffolds; Hard tissue engineering;
Keywords: داربستها; Electrospinning; Poly (butylene succinate); Cellulose nanocrystals (CNC); Nanocomposite; Scaffolds;
Keywords: داربستها; Biomaterials; Chitosan; Scaffolds; Tissue engineering;
Keywords: داربستها; Wound healing; Elastin like recombinamers; Tropoelastin; Scaffolds; Hydrogels;
Keywords: داربستها; Polycaprolactone; Carbon dioxide; Subcritical; Bone regeneration; Scaffolds; Bioactive agents;
Keywords: داربستها; Bone graft substitute; Nanocarriers; Biomaterials; Tissue engineering; Fabrication techniques; Scaffolds;
Keywords: داربستها; Magnetic nanoparticles; Scaffolds; Stem cells; Magnetic forces; Osteogenic differentiation; Bone regeneration;
Keywords: داربستها; Canine MSCs; Proliferation; Scaffolds; CNT; PCL; Chitosan;
Keywords: داربستها; Natural polymers; Scaffolds; Dialdehyde starch; Tannic acid; SaOS proliferation;
Keywords: داربستها; Autogenous grafts; Allografts; Osteoinductive; Osteoconductive; Scaffolds; Stem cells; Growth factors; Angiogenesis;
Keywords: داربستها; Ceramics; Nanostructured Materials; Scaffolds; Baghdadite; Sol-gel;
Keywords: داربستها; Scaffolds; Tissue engineering; Electrospinning; Drug; PCL; PLDL;
Keywords: داربستها; Bioceramic; Nanocomposites; Nanomaterials; Scaffolds;
Keywords: داربستها; Poly (glycerol sebacate); Silk fibroin microfiber; Chitosan; Scaffolds; Skin tissue engineering;
Keywords: داربستها; Biomaterials; Dendritic cells; Immunology; Scaffolds; Microparticles; Foreign body response;
Keywords: داربستها; Scaffolds; Biosilicate glass-ceramics; Wollastonite; Diopside; Ink writing technique;
Keywords: داربستها; Basic Science Study; Biomechanics; Scaffolds; rotator cuff; mechanical properties; biomaterials; supraspinatus tendon; surgical repair;
Keywords: داربستها; Biological augmentation; Rotator cuff healing; Stem cells; Growth factors; Scaffolds; Shoulder surgery; Platelet-rich fibrin; Platelet concentrates; Mesenchymal stem cells; Fatty infiltration; Atrophy; Retraction;
Keywords: داربستها; Silk fibroin; Anisotropic properties; Cryogels; Scaffolds; Macroporous structure;
Keywords: داربستها; Amniotic mesenchymal stem cells; Osteosynthesis; Bicortical fixation; Biocompatible; Resorbable; Scaffolds;
Keywords: داربستها; Micro-computed tomography; Bone substitutes; Scaffolds; Image analysis; Bone growth; Resorption;
Keywords: داربستها; Biodegradable; Antibacterial; Drug delivery; Sutures; Scaffolds;