Biomaterials for Neural Tissue Engineering
-10%
portes grátis
Biomaterials for Neural Tissue Engineering
Sengor, Mustafa; Gunduz, Oguzhan; Ustundag, Cem Bulent
Elsevier Science Publishing Co Inc
04/2023
480
Mole
Inglês
9780323905541
15 a 20 dias
Descrição não disponível.
1. The need for biomaterials in neural tissue engineering
2. Introduction to the nervous system from tissue engineering perspective
3. Natural, synthetic, and hybrid and composite biomaterials for neural tissue engineering
4. Carbon-based nanomaterials for nervous tissue engineering
5. Microfluidic systems for neural tissue engineering
6. Therapeutic polymer gel system in neural tissue engineering
7. Growth factor delivery for neural tissue engineering
8. Computational methods in modeling of scaffolds for neural tissue engineering
9. Drug delivery systems for neural tissue engineering
10. Biofabrication techniques for neural tissue engineering
11. Stem cells, bioengineering, and 3D scaffolds for neural tissue engineering
12. Characterization of scaffolds for neural tissue engineering
13. In vitro evaluation of biomaterials for neural tissue engineering
14. In vivo evaluation of biomaterials for neural tissue engineering
2. Introduction to the nervous system from tissue engineering perspective
3. Natural, synthetic, and hybrid and composite biomaterials for neural tissue engineering
4. Carbon-based nanomaterials for nervous tissue engineering
5. Microfluidic systems for neural tissue engineering
6. Therapeutic polymer gel system in neural tissue engineering
7. Growth factor delivery for neural tissue engineering
8. Computational methods in modeling of scaffolds for neural tissue engineering
9. Drug delivery systems for neural tissue engineering
10. Biofabrication techniques for neural tissue engineering
11. Stem cells, bioengineering, and 3D scaffolds for neural tissue engineering
12. Characterization of scaffolds for neural tissue engineering
13. In vitro evaluation of biomaterials for neural tissue engineering
14. In vivo evaluation of biomaterials for neural tissue engineering
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
3D scaffold; Additive manufacturing; AI; Biofabrication; Biomaterials; Brain; CAD; Carbon nanotubes; Carbon-based biomaterials; CATE; Delivery systems; Dendrimers; Dimensionality; Electromelting; Electrospun nanofibers; FEM; Growth factor; Hydrogels and nanofibers; Injury; Lipid; Lipoplex and polyplex nanoparticles; Liposomes; Magnetic and metallic nanoparticles; Materials design; Micelles; Microfluidic chip; Microfluidic systems; Nanoemulsions; Natural; Nerve tissue engineering; Neural differentiation; Neural growth factors; Neural regeneration; Neural tissue; Neural tissue engineering; Optimization; Peripheral nerve injury; Polymer gel; Polymeric and silica nanoparticles; Polymers; Quantum dots; Regeneration; Regenerative medicine; Responsive materials; Scaffold; Spinal cord; Stem cell; Stem cells; Synthetic and hybrid grafts; Synthetic and natural polymer; Therapeutics
1. The need for biomaterials in neural tissue engineering
2. Introduction to the nervous system from tissue engineering perspective
3. Natural, synthetic, and hybrid and composite biomaterials for neural tissue engineering
4. Carbon-based nanomaterials for nervous tissue engineering
5. Microfluidic systems for neural tissue engineering
6. Therapeutic polymer gel system in neural tissue engineering
7. Growth factor delivery for neural tissue engineering
8. Computational methods in modeling of scaffolds for neural tissue engineering
9. Drug delivery systems for neural tissue engineering
10. Biofabrication techniques for neural tissue engineering
11. Stem cells, bioengineering, and 3D scaffolds for neural tissue engineering
12. Characterization of scaffolds for neural tissue engineering
13. In vitro evaluation of biomaterials for neural tissue engineering
14. In vivo evaluation of biomaterials for neural tissue engineering
2. Introduction to the nervous system from tissue engineering perspective
3. Natural, synthetic, and hybrid and composite biomaterials for neural tissue engineering
4. Carbon-based nanomaterials for nervous tissue engineering
5. Microfluidic systems for neural tissue engineering
6. Therapeutic polymer gel system in neural tissue engineering
7. Growth factor delivery for neural tissue engineering
8. Computational methods in modeling of scaffolds for neural tissue engineering
9. Drug delivery systems for neural tissue engineering
10. Biofabrication techniques for neural tissue engineering
11. Stem cells, bioengineering, and 3D scaffolds for neural tissue engineering
12. Characterization of scaffolds for neural tissue engineering
13. In vitro evaluation of biomaterials for neural tissue engineering
14. In vivo evaluation of biomaterials for neural tissue engineering
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
3D scaffold; Additive manufacturing; AI; Biofabrication; Biomaterials; Brain; CAD; Carbon nanotubes; Carbon-based biomaterials; CATE; Delivery systems; Dendrimers; Dimensionality; Electromelting; Electrospun nanofibers; FEM; Growth factor; Hydrogels and nanofibers; Injury; Lipid; Lipoplex and polyplex nanoparticles; Liposomes; Magnetic and metallic nanoparticles; Materials design; Micelles; Microfluidic chip; Microfluidic systems; Nanoemulsions; Natural; Nerve tissue engineering; Neural differentiation; Neural growth factors; Neural regeneration; Neural tissue; Neural tissue engineering; Optimization; Peripheral nerve injury; Polymer gel; Polymeric and silica nanoparticles; Polymers; Quantum dots; Regeneration; Regenerative medicine; Responsive materials; Scaffold; Spinal cord; Stem cell; Stem cells; Synthetic and hybrid grafts; Synthetic and natural polymer; Therapeutics
