Presents groundbreaking work on chitosan-based graft copolymers and graft polysaccharides as excipients for solid dosage forms. Explore green-synthesized nanobactericides and the use of graft polymers to formulate nanoparticles. Discusses improving biodegradability, biocompatibility, and the development of smart hydrogels, and more.
The revolutionary capabilities of the use of graft copolymers of polysaccharides in tissue engineering and biomedical applications are explored in this new volume, covering their production, uses, and future directions. Graft copolymers are innovative materials that show enormous potential for combating many healthcare issues.
This book demonstrates an immense range of possible potentials, presenting groundbreaking work on chitosan-based graft copolymers as well as cutting-edge research on graft polysaccharides as excipients for solid dosage forms. The topics explore green-synthesized nanobactericides and the use graft polymers to formulate nanoparticles, highlighting the ways that nanotechnology and environmental consciousness are influencing this discipline.
Detailed discussions on improving biodegradability, biocompatibility, and the development of smart hydrogels are included as well as research on bone marrow regeneration applications, demonstrating the significant role that graft copolymers play in enabling innovative biomedical solutions.
Exploring the vast potential that polysaccharide-based graft copolymers have in biomedical and tissue engineering applications, this volume will be a valuable resource for biomedical specialists, clinical practitioners, pharmaceutical scientists, and medical experts.
Arvustused
"This comprehensive collection gathers a plethora of information from contributors across the globe for researchers, professionals, and students interested in the connection between polymer science and biomedical applications. . . . It presents a wide range of information, from the design and synthesis of polysaccharide graft-copolymers to their biomedical and pharmaceutical applications. . . . Offers insightful analyses of the most recent developments and exciting potential for a rapidly growing industry."
From the Foreword by Dhruv Galgotia, PhD, CEO, Galgotias University, Greater Noida, India
Foreword Preface
1. Chitosan-Based Graft Copolymers: Synthesis and
Application
2. Green Synthesized Nanobactericides Using Medicinal Plant
Calotropis gigantea: A Review
3. Emerging Potential of Semi-Synthetic
Biodegradable Polymer in Medical Science
4. Advances in Development of Shape
Memory Polymers Using Grafted Polysaccharides
5. Improving Biodegradability
and Biocompatibility of Copolymers Using Grafting
6. Development of Smart
Hydrogel Using Polysaccharide-Based Graft Copolymer
7. Application of Grafted
Polysaccharides in Bone Marrow Regeneration
8. Current Study in Synthesis and
Application of Chitosan-Based Grafted Copolymers
9. Grafted Copolymer of
Polysaccharide in the Development of Nanoparticles
10. Grafted Polymer for
Biomedical Applications
11. Nanotechnology-Driven Biomolecules for Healthcare
Applications
12. Grafted Polysaccharide as an Excipient for the Formulation
of Solid Dosage Form
Rishabha Malviya, PhD, is working as Associate Professor in the Department of Pharmacy, School of Medical and Allied Sciences, Galgotias University, India. He has 12 years of research experience. His area of interest includes formulation optimization, nanoformulation, targeted drug delivery, localized drug delivery and characterization of natural polymers as pharmaceutical excipients. He has authored more than 200 research/review papers for national/international journals of repute. He has 58 patents (19 grants, 38 published, one filed) and publications in reputed national and international journals. He has received an Outstanding Reviewer Award from Elsevier. He has authored and edited 48 books (Wiley, CRC Press/Taylor and Francis, Springer, River Publisher, IOP Publishing, and OMICS Publishing Group) and authored 31 book chapters. His name has included in Worlds Top 2% Scientists by Stanford University. He is a reviewer, editor, and editorial board member of more than 50 national and international journals of repute. He was an invited author for the magazine Atlas of Science as well as a pharma magazine dealing with B2B industry, Ingredient South Asia. He completed his BPharm from Uttar Pradesh Technical University and MPharm (Pharmaceutics) from Gautam Buddha Technical University, Lucknow Uttar Pradesh, India. His PhD (Pharmacy) work was in novel formulation development techniques.
Sonali Sundram, PhD, is Assistant Professor, School of Medical & Allied Sciences, Galgotias University, Greater Noida, Uttar Pradesh, India. She previously worked as a research scientist on a project of ICMR in King Georges Medical University, Lucknow, India. After that, she joined BBDNIIT (Babu Banarasi Das Northern India Institute of Technology), Lucknow. Her PhD (Pharmacy) work was in the area of neurodegeneration and nanoformulation. Her area of interest is neurodegeneration, clinical research, and artificial intelligence. She has authored and edited more than 15 books (Wiley, CRC Press/Taylor and Francis, IOP Publishing, Apple Academic Press/Taylor and Francis, Springer Nature, and River Publisher). She has attended and organized more than 15 national and international seminars, conferences, and workshops. She has more than eight patents to her credit. She has published six SCI-indexed manuscripts with reputed international publishers. She has delivered oral presentation at international conferences organized in different European countries. She completed both BPharm and MPharm (Pharmacology) from Dr. A.P.J. Abdul Kalam Technical University, Lucknow, India.
