This book is focused on marine based biomedical carriers for delivery of therapeutics. Marine biomaterials and bio-based carriers show wide applications in pharmaceutical as well as biomedical fields for delivery of small and large molecules. Biomaterial-based composites, scaffolds or matrix systems are promising systems for controlled and prolonged release of drug in target site and control the premature release of drugs or bioactive compounds. This book discusses the targeted delivery of drugs and therapeutic applications. It also describes the use of marine biopolymers in cancer therapy.…mehr
This book is focused on marine based biomedical carriers for delivery of therapeutics. Marine biomaterials and bio-based carriers show wide applications in pharmaceutical as well as biomedical fields for delivery of small and large molecules. Biomaterial-based composites, scaffolds or matrix systems are promising systems for controlled and prolonged release of drug in target site and control the premature release of drugs or bioactive compounds. This book discusses the targeted delivery of drugs and therapeutic applications. It also describes the use of marine biopolymers in cancer therapy. Different chapters describe the tissue engineering techniques to develop these carriers. The marine biomaterial-based systems are widely used for tissue engineering, and biomedical imaging.
This book is meant for industry experts, students and researchers in the area of pharmaceutical sciences, biomedical engineering and material science and pharmacology.
Dr. Sougata Jana is a B. Pharm (Gold Medalist) from West Bengal University of Technology (WBUT), Kolkata, M. Pharm (Pharmaceutics) from Biju Patnaik University of Technology (BPUT), Odisha, India & Ph.D form Maulana Abul Kalam Azad University of Technology (MAKAUT), West Bengal (Formerly Known as WBUT). He is working at the Department of Health and Family Welfare, Directorate of Health Services, Government of West Bengal, India. He has a research, teaching and health services experience of thirteen years in the field of pharmacy. He has published 30 research and review papers in different national and international peer reviewed journals. He has edited 6 books with international publishers such as Springer & Elsevier. He has to his credit more than 40 book chapters with publishers like Elsevier, Springer, Wiley VCH, CRC Press, Taylor & Francis group. He is a reviewer of various international journals. He is a life member of Association of Pharmaceutical Teachers of India (APTI) and Associateship from Institution of Chemists (AIC), India. He successfully guided 17 postgraduate students for their research projects. His areas of expertise are drug delivery science and technology including modification of synthetic and natural biopolymers, microparticles, nanoparticles, semisolids and interpenetrating network (IPN) system for controlled drug delivery. Dr.Subrata Jana is an Associate Professor at the Department of Chemistry, Indira Gandhi National Tribal University (Central University), Amarkantak, Madhya Pradesh, India, and his current research focuses on design and synthesis of artificial receptors for the recognition of anions, cations and N-methylated protein residue. He is also working on biodegradable polymeric-based carrier systems for the delivery of drug molecules by collaboration with pharmaceutical scientist. So far he has published more than 40 research papers in peer-reviewed international journals and contributed more than 10 book chapters in different edited books published by internationally renowned publishers. He also serves as an editorial board member for the Journal of PharmaSciTech (ISSN: 2231 3788) and International Journal of Scientific and Engineering Research (ISSN: 2229-5518) as well as reviewer for International Journal of Biological Macromolecule (Elsevier), Journal of PharmaSciTech and Current Pharmaceutical Design (Bentham). He has obtained his PhD in organic chemistry from the Indian Institute of Engineering Science and Technology (IIEST), Shibpur, India. Then he moved to the University of Victoria, Canada, to work with Professor (Dr.) Fraser Hof on supramolecular and medicinal chemistry as a post-doctoral fellow. He then worked further with Dr. Kenneth J Woycechowsky at the University of Utah, USA, on protein engineering and enzyme catalysis as a post-doctoral research associate. Overall, he extensively studied supramolecular behaviour of the host-guest interaction and synthesis of heterocyclics like pyrimidines, naphthyridines, quinoline and diazepines, etc. by exploiting microwave protocol for green chemical synthesis.
Inhaltsangabe
Chapter 1. Marine biopolymers for oral delivery of drug.- Chapter 2. Marine polymer based nanocarriers for drug delivery application.- Chapter 3. Alginate: A promising biopolymer in drug delivery system.- Chapter 4. Chitosan Based Nanocomposite as Targeted drug delivery Carrier.- Chapter 5. Marine Biopolymer Based Oral In situ Gel: Drug Delivery Applications.- Chapter 6. Marine biopolymers for transdermal drug delivery.- Chapter 7. Marine polysaccharides for skin drug delivery: hydrogels and microneedles solutions.- Chapter 8. Marine collagen: promising biomaterial in delivery of therapeutics for cancer therapy.- Chapter 9. Chitosan based gel for ocular drug delivery. Chapter 10. Marine based biopolymers for central nervous system drug delivery.- Chapter 11. Marine Biopolymers Based Anticancer Drug Delivery Systems.- Chapter 12. Marine-Derived polysaccharides: prospects for future pharmaceuticals and drug delivery systems.
Chapter 1. Marine biopolymers for oral delivery of drug.- Chapter 2. Marine polymer based nanocarriers for drug delivery application.- Chapter 3. Alginate: A promising biopolymer in drug delivery system.- Chapter 4. Chitosan Based Nanocomposite as Targeted drug delivery Carrier.- Chapter 5. Marine Biopolymer Based Oral In situ Gel: Drug Delivery Applications.- Chapter 6. Marine biopolymers for transdermal drug delivery.- Chapter 7. Marine polysaccharides for skin drug delivery: hydrogels and microneedles solutions.- Chapter 8. Marine collagen: promising biomaterial in delivery of therapeutics for cancer therapy.- Chapter 9. Chitosan based gel for ocular drug delivery. Chapter 10. Marine based biopolymers for central nervous system drug delivery.- Chapter 11. Marine Biopolymers Based Anticancer Drug Delivery Systems.- Chapter 12. Marine-Derived polysaccharides: prospects for future pharmaceuticals and drug delivery systems.
Chapter 1. Marine biopolymers for oral delivery of drug.- Chapter 2. Marine polymer based nanocarriers for drug delivery application.- Chapter 3. Alginate: A promising biopolymer in drug delivery system.- Chapter 4. Chitosan Based Nanocomposite as Targeted drug delivery Carrier.- Chapter 5. Marine Biopolymer Based Oral In situ Gel: Drug Delivery Applications.- Chapter 6. Marine biopolymers for transdermal drug delivery.- Chapter 7. Marine polysaccharides for skin drug delivery: hydrogels and microneedles solutions.- Chapter 8. Marine collagen: promising biomaterial in delivery of therapeutics for cancer therapy.- Chapter 9. Chitosan based gel for ocular drug delivery. Chapter 10. Marine based biopolymers for central nervous system drug delivery.- Chapter 11. Marine Biopolymers Based Anticancer Drug Delivery Systems.- Chapter 12. Marine-Derived polysaccharides: prospects for future pharmaceuticals and drug delivery systems.
Chapter 1. Marine biopolymers for oral delivery of drug.- Chapter 2. Marine polymer based nanocarriers for drug delivery application.- Chapter 3. Alginate: A promising biopolymer in drug delivery system.- Chapter 4. Chitosan Based Nanocomposite as Targeted drug delivery Carrier.- Chapter 5. Marine Biopolymer Based Oral In situ Gel: Drug Delivery Applications.- Chapter 6. Marine biopolymers for transdermal drug delivery.- Chapter 7. Marine polysaccharides for skin drug delivery: hydrogels and microneedles solutions.- Chapter 8. Marine collagen: promising biomaterial in delivery of therapeutics for cancer therapy.- Chapter 9. Chitosan based gel for ocular drug delivery. Chapter 10. Marine based biopolymers for central nervous system drug delivery.- Chapter 11. Marine Biopolymers Based Anticancer Drug Delivery Systems.- Chapter 12. Marine-Derived polysaccharides: prospects for future pharmaceuticals and drug delivery systems.
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