Nanobiomaterials in Soft Tissue Engineering Applications of Nanobiomaterials
Coordonnateur : Grumezescu Alexandru
Nanobiomaterials in Soft Tissue Engineering brings together recent developments and the latest approaches in the field of soft tissue engineering at the nanoscale, offering a new perspective on the evolution of current and future applications. Leading researchers from around the world present the latest research and share new insights.
This book covers the major conventional and unconventional fabrication methods of typical three-dimensional scaffolds used in regenerative medicine. Surface modification and spatial properties are included in an up-to-date overview, with the latest in vivo applications of engineered 3D scaffolds discussed. The book also considers the impact, advantages and future scope of the various methods.
This book will be of interest to postdoctoral researchers, professors and students engaged in the fields of materials science, biotechnology and applied chemistry. It will also be highly valuable to those working in industry, including pharmaceutics and biotechnology companies, medical researchers, biomedical engineers and advanced clinicians.
Chapter 1. Soft tissue engineering and microbial infections: Challenges and perspectives
Chapter 2. Nanotechnology approaches for skin wound regeneration using drug-delivery systems
Chapter 3. Bacterial cellulose for advanced medical materials
Chapter 4. Applications of nanobiopolymers for soft tissue engineering
Chapter 5. Machine design for multimaterial processing
Chapter 6. Advanced nanobiomaterials in tissue engineering: Synthesis, properties, and applications
Chapter 7. Collagen-based nanobiomaterials: Challenges in soft tissue engineering
Chapter 8. Micro/nanofiber-based scaffolds for soft tissue engineering applications: Potential and current challenges
Chapter 9. Natural polymer-based hydrogels as scaffolds for tissue engineering
Chapter 10. Bioactive nanomaterials for cartilage and muscle regeneration
Chapter 11. Fabrication of complex biomaterial scaffolds for soft tissue engineering by electrospinning
Chapter 12. Oxygen-generating nanobiomaterials for the treatment of diabetes: A tissue engineering approach
Chapter 13. Advances in the field of soft tissue engineering: From pure regenerative to integrative solutions
Chapter 14. Tissue engineering: Use of electrospinning technique for recreating physiological functions
Chapter 15. In vivo microscopic and mechanical characteristics of bioengineered and biodegradable tissue scaffolds and nanomaterials
Academic: Materials science, biotechnology and applied chemistry professors, PhD, MsC, postdocs, upper level undergraduate students.
Industry: Pharmaceutics and biotechnology companies, medical researchers, biomedical engineers, advanced clinicians.
- An informative handbook for researchers, practitioners and students working in biomedical, biotechnological and engineering fields.
- A detailed and invaluable overview of soft tissue engineering, including the most recent scientific developments.
- Proposes novel opportunities and ideas for developing or improving technologies in nanomedicine and nanobiology.
Date de parution : 03-2016
Ouvrage de 528 p.
19x23.3 cm
Thèmes de Nanobiomaterials in Soft Tissue Engineering :
Mots-clés :
Angiogenesis; Animal model; Antibiofilm compounds; Antibiotic sustained release; Artificial organs; Bacterial cellulose (Nanoskin®); Bioactive scaffolds; Biofilm development; Biomaterial associated infections; Biomaterial-associated infections; Biomaterials; Biomimics; Bionanocomposites; Cardiovascular; Cartilage; Cartilage repair; Chitosan; Collagen; Degradation; Diabetes; ECM; Electrospinning; Electrospun scaffold; Engineering; Extracellular matrix; Gelatin; Genetic modifications; Histological evaluation; Hydrogel properties; Hydrogels; Issue engineering; Medical applications; Microfabrication; Multimaterial processing; Muscle; Muscle regeneration; Nanobiomaterials; Nanobiopolymers; Nanobiotechnology; Nanocomposite materials; Nanofibrous structures; Nanomaterials; Natural; Natural polymers; Nerve; Organic and inorganic materials; Oxygen-generating; Parallel manipulator; Polycaprolactone; Polymer; Polysaccharide; Polyvinyl alcohol; Proliferation; Regenerative medicine; Scaffold; Scaffolds; Semisynthetic; Skin; Soft tissue; Soft tissue engineering; Soft tissue materials; Synthetic; Synthetic polymers; Tissue; Tissue engineering; Wound dressing; Wound healing