Design and Development of New Nanocarriers

This in-depth study shows how lab-on-a-chip technology has led to the development of more effective new nanocarriers

Alexandru Mihai Grumezescu (Edited by)

9780128136270, Elsevier Science

Paperback, published 30 November 2017

766 pages
23.4 x 19 x 4.6 cm, 1.59 kg

Design and Development of New Nanocarriers focuses on the design and development of new nanocarriers used in pharmaceutical applications that have emerged in recent years. In particular, the pharmaceutical uses of microfluidic techniques, supramolecular design of nanocapsules, smart hydrogels, polymeric micelles, exosomes and metal nanoparticles are discussed in detail. Written by a diverse group of international researchers, this book is a valuable reference resource for those working in both biomaterials science and the pharmaceutical industry.

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

Subject Areas: Electronics & communications engineering [TJ], Biomedical engineering [MQW], Pharmacology [MMG]