Bioinspired materials represent a promising area of study within biomaterials research, providing novel solutions for a variety of applications in the field of biomedical engineering. The development and production of bioinspired polymers and ceramics for tissue engineering necessitate a thorough comprehension of the interactions among polymers, nanostructures, and cells. In essence, this research is highly interdisciplinary, aiming to create pseudo-tissue constructs for regenerative medicine. Currently, a range of materials including natural and synthetic polymers, copolymers, and blends are utilized and manufactured using cutting-edge technologies such as electrospinning and 3D-bioprinting, in addition to traditional methods. Recognizing the importance of this topic, this special edition serves as a platform to showcase relevant research focusing on polymers and ceramic-based biomaterials for regenerative medicine.
This special edition aims to address the major problems of optimizing biomimetic and bioactive polymeric materials for specific tissue engineering applications and drug delivery. More specifically, to understand how do the artificial structure fabrication and characterization of bioinspired materials affect by their compositions in regards to biological behavior. To accomplish this goal, bioinspired materials could be created through the utilization of cutting-edge novel materials, the combination of synthetic materials with naturally derived polymers, as well as the blending of polymers with ceramics, in order to address significant shortcomings and mitigate limitations.
This Research Topic aims to collect high-quality contributions in the development of bioinspired polymer and ceramic materials and their applications in the field for regenerative medicine.
Topics may include, but are not limited to, the following:
- Fabrication of bioinspired materials
- Development of natural derived polymers
- Synthetic derived polymers
- Ceramics
- 3D fabrication
- Biocompability of bioinspired materiasls
- Immunological responses
- Bone and Dental implants
- Skin regeneration
- Cell-matrix interaction
- Scaffolds, hydrogels, bioinks, 3D matrix
Accepted manuscript types include Original Research, Review, Systematic Review, Mini Review, Hypothesis and Theory, Perspective, Opinion
Keywords:
Natural derived polymers, synthetic polymers, bioceramics, bone and dental regeneration, skin regeneration, in-vitro studies, in-vivo studies, hydrogels
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.
Bioinspired materials represent a promising area of study within biomaterials research, providing novel solutions for a variety of applications in the field of biomedical engineering. The development and production of bioinspired polymers and ceramics for tissue engineering necessitate a thorough comprehension of the interactions among polymers, nanostructures, and cells. In essence, this research is highly interdisciplinary, aiming to create pseudo-tissue constructs for regenerative medicine. Currently, a range of materials including natural and synthetic polymers, copolymers, and blends are utilized and manufactured using cutting-edge technologies such as electrospinning and 3D-bioprinting, in addition to traditional methods. Recognizing the importance of this topic, this special edition serves as a platform to showcase relevant research focusing on polymers and ceramic-based biomaterials for regenerative medicine.
This special edition aims to address the major problems of optimizing biomimetic and bioactive polymeric materials for specific tissue engineering applications and drug delivery. More specifically, to understand how do the artificial structure fabrication and characterization of bioinspired materials affect by their compositions in regards to biological behavior. To accomplish this goal, bioinspired materials could be created through the utilization of cutting-edge novel materials, the combination of synthetic materials with naturally derived polymers, as well as the blending of polymers with ceramics, in order to address significant shortcomings and mitigate limitations.
This Research Topic aims to collect high-quality contributions in the development of bioinspired polymer and ceramic materials and their applications in the field for regenerative medicine.
Topics may include, but are not limited to, the following:
- Fabrication of bioinspired materials
- Development of natural derived polymers
- Synthetic derived polymers
- Ceramics
- 3D fabrication
- Biocompability of bioinspired materiasls
- Immunological responses
- Bone and Dental implants
- Skin regeneration
- Cell-matrix interaction
- Scaffolds, hydrogels, bioinks, 3D matrix
Accepted manuscript types include Original Research, Review, Systematic Review, Mini Review, Hypothesis and Theory, Perspective, Opinion
Keywords:
Natural derived polymers, synthetic polymers, bioceramics, bone and dental regeneration, skin regeneration, in-vitro studies, in-vivo studies, hydrogels
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.