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Biomaterials for Tissue Engineering and Regeneration
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Biomaterials are an integral component of tissue engineering, and their development is crucial to the progress of new and efficient approaches in the regenerative medicine of bone, cartilage, tendons and ligaments, skin, soft-tissue wounds, cardiac muscle, vascular tissues, and neural tissues.Polymer-based biomaterials are extensively studied in the field of tissue engineering due to their biocompatible and biodegradable properties. This Special Issue is devoted to recent developments of synthetic and/or natural biomaterial scaffolds, hydrogels, polypeptides, polymer-based composites, and composites based on polymers and inorganic materials, such as bioactive ceramics and glasses. New technologies (e.g., bioprinting, additive manufacturing, etc.) used to form biomaterials for tissue engineering of three-dimensional (3D) constructs are of particular interest.
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Keywords
- 3D fabrication
- alginate
- antitumor effect
- Ascorbate
- ascorbyl palmitate
- BHA–GEL pellet
- bioactive glass
- bioactive keratin
- Biocompatibility
- biodegradation gelation ability
- Biomaterials
- bone augmentation
- bone healing
- bone morphogenetic protein
- Bone Regeneration
- bone remodeling
- bovine hydroxyapatite
- bovine pericardium
- Breast cancer
- calcium lactate
- cardiac tissue engineering
- cartilage regeneration
- Cell culture
- cellular uptake
- chitosan
- chondrocytes
- co-cultures
- collagen
- composite
- cross-linked hyaluronic acid
- cryopreservation
- decellularization
- defect
- diabetic foot
- drug cargo
- Drug delivery
- ectopic bone formation
- electrochemical evaluations
- electrospinning
- endothelialization
- Extracellular matrix
- fibroblasts
- Gelatin
- GelMA
- glutaraldehyde-fixation
- Graphene
- hemocompatibility
- heparinize
- high hydrostatic pressurization method
- homografts
- hydrogel
- Immune response
- in vitro study
- in vivo
- injectable hydrogel
- injection-type bone forming material
- ischaemic harvesting
- keratin hydrolysate
- ligament
- medicine
- mesenchymal stem cells
- Microscopy
- Morphology
- nano hydroxyapatite
- Nanoparticles
- osteogenesis
- oxidation degree
- oxidized sodium alginate
- PCL-PEG
- PLGA
- polylactic acid
- polymer
- Polymer micelle
- porcine pericardium
- rat femur defect
- rheological properties
- scaffold
- scaffolds
- skin homeostasis restoration
- skin wound healing
- subcutaneous implantation
- surfactant method
- tensile properties
- Tergitol
- Tissue Engineering
- valve bioprostheses
- wound dressing
- XPS (X-ray photoelectron spectroscopy)
Links
DOI: 10.3390/books978-3-0365-6360-2Editions