Protein-Based Nanocomposites for Tissue Engineering

Protein-Based Nanocomposites for Tissue Engineering by Showkat Ahmad Bhawani, Zoheb Karim, and Mohammad Jawaid is a definitive resource for researchers, engineers, and graduate students advancing regenerative medicine. This authoritative volume combines fundamental science with practical strategies, revealing how protein-derived matrices—collagen, gelatin, silk fibroin and other natural polymers—are engineered at the nanoscale to create scaffolds that mimic native tissue.

Discover the latest fabrication and characterization techniques, from electrospinning and self-assembly to 3D bioprinting, and learn how nanoscale reinforcement improves mechanical strength, biodegradability, and cell interactions. Richly illustrated case studies explore orthopedic, cardiovascular, neural and wound-healing applications, highlighting in vitro and translational outcomes and pathways to clinical use.

Whether you work in academia, biotech, or healthcare product development, this book equips you to solve real-world design challenges: tuning porosity for cell infiltration, optimizing protein–nanoparticle interfaces for sustained drug release, and ensuring biocompatibility and regulatory readiness. Written by leading authors with international perspectives, it speaks to a global audience—from research labs in North America and Europe to innovation hubs across Asia and the Middle East.

Concise yet comprehensive, this title is an essential guide for anyone building the next generation of biomaterials. If you need a practical roadmap for designing protein-based nanocomposites that translate from bench to bedside, this book delivers expert insight, actionable methods, and forward-looking discussion on the future of tissue engineering.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.