Hybrid Polymeric Systems for Biomedical Applications Woodhead Publishing Series in Biomaterials Series

Hybrid Polymeric Systems for Biomedical Applications explores the development and utilization of hybrid polymeric systems for use in a range of biomedical applications. Hybrid systems combine the specialized properties of each polymer type to produce a more targeted material which is much more tightly aligned with the intended applications and outcomes. This book covers a broad selection of hybrid polymeric systems as well as a variety of key biomedical applications, including tissue engineering, drug delivery, wound healing, and more.

1. Hybrid polymeric systems: Design, biomedical applications, Opportunities, Challenges and Future Perspectives 2. Hybrid polymeric materials for potential applications in cartilage, ligament and tendon tissue engineering 3. Hybrid polymeric materials for potential applications in bone regeneration 4. Hybrid polymeric scaffolds for potential applications in wound dressing and skin regeneration 5. Hybrid polymeric systems for potential applications in drug delivery systems for chronic and infectious diseases 6. Hybrid polymeric scaffolds for diagnostic applications 7. Hybrid polymeric systems for potential applications in ocular drug delivery 8. Hybrid polymeric scaffolds for potential applications in brain targeting 9. Hybrid polymeric scaffolds for potential applications in nerve and muscle regeneration 10. Hybrid polymeric systems for potential applications in vaccine delivery 11. Hybrid polymeric scaffolds for potential applications in reconstructive and cosmetic medicine 12. The efficacy of piezo- and magnetoactive polymer scaffolds in tissue engineering 13. The design of hybrid polymeric materials for tissue engineering: 3D bioprinting, polymeric protheses, smart polymers, and shape memory polymeric biomaterials.

Prof. Rotimi Sadiku, currently a Professor at the Department of Chemical, Metallurgical, and Materials Engineering at Tshwane University of Technology, South Africa, earned his BSc. [Hons] and a PhD from the University of Strathclyde, Glasgow, UK, specializing in Polymer Physics with a focus on Polymer Processing, X-ray Diffraction, Thermal Characteristics, Rheology, and Microscopy of Polymers techniques.

His academic journey includes a role as a Lecturer II at the Federal University of Technology in Nigeria, followed by a Postdoctoral Research Fellowship at the University of Genova/CNR, Italy. Upon returning to Nigeria, he continued his career by joining the Federal University of Technology, where he served as a Senior Lecturer. He also spent a year as a Research Fellow at the KTH Institute of Technology in Stockholm, Sweden. In January 2004, he assumed his current position as a Research Professor at Tshwane University of Technology (TUT), South Africa.

• Details polymeric and hybrid biomaterials used for the development of scaffolds for various biomedical applications, including drug delivery systems, vaccine development, tissue regeneration, diagnostic applications, wound dressings, brain targeting, and cosmetic surgery
• Covers the design, synthesis, challenges and advantages of hybrid polymeric materials for biomedical applications
• Provides a comprehensive look at how hybrid materials can be used in place of traditional materials to ensure unique property sets for targeted applications