Design and Development of New Nanocarriers
Editat de Alexandru Mihai Grumezescuen Limba Engleză Paperback – 30 noi 2017
- Shows how nanomanufacturing techniques can help to create more effective, cheaper pharmaceutical products
- Explores how nanofabrication techniques developed in the lab have been translated to commercial applications in recent years
- Explains safety and regulatory aspects of the use of nanomanufacturing processes in the pharmaceutical industry
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Specificații
ISBN-13: 9780128136270
ISBN-10: 0128136278
Pagini: 766
Dimensiuni: 191 x 235 x 42 mm
Greutate: 1.54 kg
Editura: ELSEVIER SCIENCE
ISBN-10: 0128136278
Pagini: 766
Dimensiuni: 191 x 235 x 42 mm
Greutate: 1.54 kg
Editura: ELSEVIER SCIENCE
Public țintă
Pharmaceutical scientists, biomaterials scientists, toxicologists, biomedical engineers, medicinal chemists and postgraduate students specializing in the areas of nanomedicine, bionanomaterials and nanotechnology applications in healthcare.Cuprins
1. Bilayer-Based Drug Carriers: Liposomes, polymersomes and niosomes
2. Recent advances in micellar-like polyelectrolyte/protein complexes: design and development of biopharmaceuticals
3. Calixarene-based micelles: properties and applications
4. Preparation of Janus Nanoparticles and its Application in Drug Delivery
5. Supramolecular design of hydrophobic and hydrophilic polymeric nanoparticles
6. Cationic Polyelectrolyte-Biopolymer Complex Hydrogel Particles for Drug Delivery
7. Smart micelleplexes: An overview of a promising and potential nanocarrier for alternative therapies
8. Polymeric Micelles as a Versatile Tool in Oral Chemotherapy
9. Mixed micelles as drug delivery nanocarriers
10. Amphiphilic block copolymers based micelles for drug delivery
11. Synthesis and evolution of polymeric nanoparticles: development of an improved gene delivery system
12. Protein and drug imprinted nanostructures as controlled delivery tools
13. Application of Complex Coacervates in Controlled Delivery
14. Hydrogels: biomedical uses
15. Development of nanocapsules derived from viral capsid proteins for medical applications
16. Layer-by-Layer coated drug-core nanoparticles as versatile delivery platforms
17. Effect of a-cyclodextrin Nanoparticles on the Structure of Iodine Complexes with Polypeptides and Alkali Metal Halogenides and on the Mechanisms of their Anti-HIV and Anti-cancer Activity
18. Nanocarriers for the delivery of Temozolomide in the treatment of Gliobastoma: A review
2. Recent advances in micellar-like polyelectrolyte/protein complexes: design and development of biopharmaceuticals
3. Calixarene-based micelles: properties and applications
4. Preparation of Janus Nanoparticles and its Application in Drug Delivery
5. Supramolecular design of hydrophobic and hydrophilic polymeric nanoparticles
6. Cationic Polyelectrolyte-Biopolymer Complex Hydrogel Particles for Drug Delivery
7. Smart micelleplexes: An overview of a promising and potential nanocarrier for alternative therapies
8. Polymeric Micelles as a Versatile Tool in Oral Chemotherapy
9. Mixed micelles as drug delivery nanocarriers
10. Amphiphilic block copolymers based micelles for drug delivery
11. Synthesis and evolution of polymeric nanoparticles: development of an improved gene delivery system
12. Protein and drug imprinted nanostructures as controlled delivery tools
13. Application of Complex Coacervates in Controlled Delivery
14. Hydrogels: biomedical uses
15. Development of nanocapsules derived from viral capsid proteins for medical applications
16. Layer-by-Layer coated drug-core nanoparticles as versatile delivery platforms
17. Effect of a-cyclodextrin Nanoparticles on the Structure of Iodine Complexes with Polypeptides and Alkali Metal Halogenides and on the Mechanisms of their Anti-HIV and Anti-cancer Activity
18. Nanocarriers for the delivery of Temozolomide in the treatment of Gliobastoma: A review