Polymeric Micelles for Drug Delivery. Woodhead Publishing Series in Biomaterials

Table of Contents

Part A: Synthesis and characterization of polymeric micelles for drug delivery 1. Polymeric micelles: pre� cis for past, present, and future 2. Various polymers in the development of polymeric micelles 3. Solubility enhancement and drug release mechanism of polymeric micelles 4. Polymeric micellar nanomedicine for enhanced permeability and retention effect 5. Polymeric micelles for oral drug delivery 6. Polymeric micellar nanocarriers: topical treatment of inflammatory diseases

Part B: Application of polymeric micelles in drug delivery 7. Polymeric micelles in dermal and transdermal drug delivery 8. Polymeric micelles as delivery systems for anticancer immunotherapy 9. Polymeric micelles for drug delivery in oncology 10. Surface engineering of polymeric micelles for imparting multifunctionality 11. Cellular interaction of polymeric micelles in targeted drug delivery systems: the road from tissue to cell

Part C: Stimuli-responsive polymeric micelles for drug delivery 12. pH-responsive polymeric micelles for drug delivery 13. Enzyme-responsive polymeric micelles for drug delivery applications 14. Light- and temperature-responsive polymeric micelles for drug delivery 15. Exogenous stimuli 16. Dual-responsive polymeric micelles for drug delivery

Part D: Recent advances in polymeric micelles 17. Polymeric micelles for drug codelivery 18. Nose-to-brain delivery 19. The application of a drug 20. Polymeric micelles with cleavable links for drug delivery 21. Block copolymer micelles as long-circulating drug delivery vehicles 22. Triblock polymeric micelles as an emerging nanocarrier for drug delivery

Part E: Environmental and regulatory aspects 23. Biological toxicity and environmental hazards associated with polymeric micelles 24. Clinical translation of polymeric micelles into market 25. Regulatory pathways and prospects for polymeric micelles

Authors

Prashant Kesharwani Assistant Professor, Department of Pharmaceutics, School of Pharmaceutical Education and Research, Jamia Hamdard, New Delhi, India.

Dr. Prashant Kesharwani is working as an assistant professor of pharmaceutics at the School of Pharmaceutical Education and Research, Jamia Hamdard University, New Delhi, India. He has more than 12 years of teaching, research, and industrial experience at international levels from various countries, including the United States, Malaysia, and India. An overarching goal of his current research is the development of nanoengineered drug delivery systems for various diseases. He has more than 300 international publications in well-reputed journals and more than 20 international books (Elsevier). He is a recipient of many research grants from various funding bodies. He is also a receipt of several internationally acclaimed awards such as the most prestigious "Ramanujan Fellowship Award� from the Science and Engineering Research Board, Government of India. He actively participates in outreach and scientific dissemination for the service of the wider community.

Khaled Greish Professor of Molecular Medicine, Princes Al-Jawhara Center, Arabian Gulf University, Kingdom of Bahrain. Dr. Khaled Greish is Professor of Molecular Medicine, and head of the Nano-research unit, at Princes Al-Jawhara Center, Arabian Gulf University, Kingdom of Bahrain. His previous appointments included Senior lecturer of Pharmacology at the University of Otago, New Zealand, and Assistant Professor of Pharmaceutical Chemistry at University of Utah (UT, USA). He has published > 70 peer reviewed papers, and 10 book chapters in the field of targeted anticancer drug delivery. Controlled Release Society (CRS) awarded him the CRS Postdoctoral Achievement Award in 2008 and in 2010; he was elected as member of the CRS College of Fellows. In recognition of his research, University of Otago awarded him "Early Career Awards for Distinction in Research� in 2014. His research focuses on Nanomedicine, tumor vascular biology, and anticancer drug discovery/development.