Hybrid Polymeric Biomaterials for Hemostasis
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Hybrid Polymeric Biomaterials for Hemostasis
Varaprasad, Kokkarachedu
Elsevier - Health Sciences Division
03/2026
604
Mole
Inglês
9780443342462
Pré-lançamento - envio 15 a 20 dias após a sua edição
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1. Introduction of Hybrid Biomaterials
2. Polyscaccharide based hemostatic biomaterials
3. Peptide and Protein Hybrid Biomaterials for Hemostasis
4. Supramolecular, Thermoresposive and Self-Healing Polymers/Hydrogels for Hemostasis
5. FDA-Approved Polymers and Nanomaterials for Hemostatic Applications
6. Synthetic polymer based hemostatic biomaterials
7. Nanostructured Hemostatic hybrid biomaterials
8. Hybrid Polymeric Biomaterial Composites and Combinations
9. 3D printed hybrid Hemostatic Biomaterials
10. Microfabrication Techniques for Hemostatic Biomaterials
11. Regenerative Medicine and Hemostatic Biomaterials
12. Biomimetic Approaches in Hemostatic Biomaterials Design
13. Biocompatibility and Safety Assessment of Hemostatic Biomaterials
14.Clinical Applications and Case Studies in Hemostasis
15.Regulatory Considerations and Commercialization
2. Polyscaccharide based hemostatic biomaterials
3. Peptide and Protein Hybrid Biomaterials for Hemostasis
4. Supramolecular, Thermoresposive and Self-Healing Polymers/Hydrogels for Hemostasis
5. FDA-Approved Polymers and Nanomaterials for Hemostatic Applications
6. Synthetic polymer based hemostatic biomaterials
7. Nanostructured Hemostatic hybrid biomaterials
8. Hybrid Polymeric Biomaterial Composites and Combinations
9. 3D printed hybrid Hemostatic Biomaterials
10. Microfabrication Techniques for Hemostatic Biomaterials
11. Regenerative Medicine and Hemostatic Biomaterials
12. Biomimetic Approaches in Hemostatic Biomaterials Design
13. Biocompatibility and Safety Assessment of Hemostatic Biomaterials
14.Clinical Applications and Case Studies in Hemostasis
15.Regulatory Considerations and Commercialization
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
3D and 4D printing; 3D printing; Alginate; Biocompatibility; Bioengineering; Biomaterials; Biomedical engineering; Biomimetic; Biopolymers; Bioprinting; Bleeding wounds; Clinical applications; Commercialization pathways; Drug delivery system; Electrospinning; Essential Oils; Food and Drug Administration; Future directions; Harmonization; Hematology; Hemostasis; Hemostat biomaterials; Hemostatic; Hemostatic biomaterials; Hemostatic materials; Hybrid biomaterials; Materials application; Microfabrication techniques; Microfluidics; Nanostructured materials; Nanotechnology; Peptides and proteins; Phase transition; Plant extracts; Polymers; Regenerative biomaterials; Regulatory approval pathways; Regulatory considerations; Regulatory frameworks; Self-assembling hybrid biomaterials; Self-healing; Stem cells; Supramolecular polymers and hydrogels; Synthetic polymers; Thermo-responsiveness; Tissue engineering; Wound healing
1. Introduction of Hybrid Biomaterials
2. Polyscaccharide based hemostatic biomaterials
3. Peptide and Protein Hybrid Biomaterials for Hemostasis
4. Supramolecular, Thermoresposive and Self-Healing Polymers/Hydrogels for Hemostasis
5. FDA-Approved Polymers and Nanomaterials for Hemostatic Applications
6. Synthetic polymer based hemostatic biomaterials
7. Nanostructured Hemostatic hybrid biomaterials
8. Hybrid Polymeric Biomaterial Composites and Combinations
9. 3D printed hybrid Hemostatic Biomaterials
10. Microfabrication Techniques for Hemostatic Biomaterials
11. Regenerative Medicine and Hemostatic Biomaterials
12. Biomimetic Approaches in Hemostatic Biomaterials Design
13. Biocompatibility and Safety Assessment of Hemostatic Biomaterials
14.Clinical Applications and Case Studies in Hemostasis
15.Regulatory Considerations and Commercialization
2. Polyscaccharide based hemostatic biomaterials
3. Peptide and Protein Hybrid Biomaterials for Hemostasis
4. Supramolecular, Thermoresposive and Self-Healing Polymers/Hydrogels for Hemostasis
5. FDA-Approved Polymers and Nanomaterials for Hemostatic Applications
6. Synthetic polymer based hemostatic biomaterials
7. Nanostructured Hemostatic hybrid biomaterials
8. Hybrid Polymeric Biomaterial Composites and Combinations
9. 3D printed hybrid Hemostatic Biomaterials
10. Microfabrication Techniques for Hemostatic Biomaterials
11. Regenerative Medicine and Hemostatic Biomaterials
12. Biomimetic Approaches in Hemostatic Biomaterials Design
13. Biocompatibility and Safety Assessment of Hemostatic Biomaterials
14.Clinical Applications and Case Studies in Hemostasis
15.Regulatory Considerations and Commercialization
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
3D and 4D printing; 3D printing; Alginate; Biocompatibility; Bioengineering; Biomaterials; Biomedical engineering; Biomimetic; Biopolymers; Bioprinting; Bleeding wounds; Clinical applications; Commercialization pathways; Drug delivery system; Electrospinning; Essential Oils; Food and Drug Administration; Future directions; Harmonization; Hematology; Hemostasis; Hemostat biomaterials; Hemostatic; Hemostatic biomaterials; Hemostatic materials; Hybrid biomaterials; Materials application; Microfabrication techniques; Microfluidics; Nanostructured materials; Nanotechnology; Peptides and proteins; Phase transition; Plant extracts; Polymers; Regenerative biomaterials; Regulatory approval pathways; Regulatory considerations; Regulatory frameworks; Self-assembling hybrid biomaterials; Self-healing; Stem cells; Supramolecular polymers and hydrogels; Synthetic polymers; Thermo-responsiveness; Tissue engineering; Wound healing
