Full Description
Biopolymer Based Nano Drug Delivery for Cancer Wound Healing explores groundbreaking advancements in nanomedicine's role in treating cancer and promoting wound healing. The book delves into the pathophysiology of cancerous wounds, introduces biopolymer-based nanomedicine, and examines drug delivery systems using biopolymer-based nanoparticles. It concludes with future prospects of biopolymers in antitumor drug delivery systems. This resource is invaluable for researchers, advanced students, and R&D personnel across various fields, including cancer research, polymer science, biomaterials, biomedicine, pharmaceutics, biotechnology, and chemistry. Each chapter bridges theoretical concepts with practical applications, providing examples to illustrate key points.
The book covers the pathophysiology of cancer and wounds, biopolymer-based nanomedicine for cancerous wounds, and drug delivery systems for healing. This is an essential reference for scientists and students focusing on pharmacy, drug delivery, and biomedicine.
Contents
1. An overview of the pathophysiology of cancer wound and normal woun
2. Introduction of biopolymer-based nanomedicine for cancerous wounds
3. Drug delivery systems for cancer wound healing using biopolymer-based nanoparticles
4. Gene drug delivery and tissue regeneration using biopolymer-based nanoparticles for cancer wound treatment
5. Biopolymer-based nanotechnology for solid tumor siRNA drug delivery with cancer wound healing
6. Nanocomposites based on stimuli-responsive biopolymers for the delivery of drugs in the healing of cancer wounds
7. Cancer wound healing drug delivery using biopolymer-based nano-gels: Basic concept and current developments
8. Hydrogels: Smart materials in drug delivery for cancer wound healing
9. Photoresponsive hydrogels as drug delivery systems for cancer wound healing
10. Novel dendrimer-based nanoplatforms for the treatment of cancer wounds
11. Nanostructure of multifunctional niosomes for efficient drug delivery in cancer wound treatment
12. Recent advancements and future prospects of biopolymers in antitumor implantable drug delivery systems for cancer therapy
