Regenerative medicine, tissue engineering, and organ engineering are emerging as promising fields that aim to restore or replace damaged tissues and organs. Biomaterials play a crucial role in these endeavors by providing scaffolds and cues for cellular growth and tissue regeneration. However, achieving precise control over tissue regeneration and organ reconstruction remains a significant challenge. Biomaterials and nanobiotechnology offer unique opportunities in this regard, enabling precise manipulation of cellular behavior, targeted delivery of bioactive molecules, and the enhancement of biomaterial properties. Despite significant progress, a more comprehensive exploration of these technologies is still necessary to realize their full potential in regenerative medicine.The primary objective of this Research Topic is to pioneer advancements in biomaterials and nanobiotechnology for tissue regeneration and organ reconstruction. We aim to address key challenges in these fields, including the improvement of biomaterial design, enhancement of cellular interactions, and optimization of delivery strategies. Through interdisciplinary collaboration efforts, we seek to accelerate the development of innovative therapies that can effectively regenerate tissues and organs, ultimately improving patient outcomes and quality of life.This Research Topic welcomes contributions covering various aspects of biomaterials and nanobiotechnology in regenerative medicine, tissue engineering, and organ engineering. Specific themes of interest include, but are not limited to:1. Design and fabrication technologies for nanostructured materials2. New biomaterials and fabrication technologies for tissue engineering and organ construction3. Engineering of cellular microenvironments using biomaterials and nanotechnology4. Organoids and the role of biomaterials/nanotechnologies in their construction5. Immune reactions to biomaterials and nanomaterials6. Development of nanocarriers for controlled drug delivery in regenerative medicine7. Safety aspects of new biomaterials and nanotechnologiesWe encourage the submission of original research articles, reviews, and perspectives that provide insights into cutting-edge developments, challenges, and future directions in this rapidly evolving field.
Regenerative medicine, tissue engineering, and organ engineering are emerging as promising fields that aim to restore or replace damaged tissues and organs. Biomaterials play a crucial role in these endeavors by providing scaffolds and cues for cellular growth and tissue regeneration. However, achieving precise control over tissue regeneration and organ reconstruction remains a significant challenge. Biomaterials and nanobiotechnology offer unique opportunities in this regard, enabling precise manipulation of cellular behavior, targeted delivery of bioactive molecules, and the enhancement of biomaterial properties. Despite significant progress, a more comprehensive exploration of these technologies is still necessary to realize their full potential in regenerative medicine.The primary objective of this Research Topic is to pioneer advancements in biomaterials and nanobiotechnology for tissue regeneration and organ reconstruction. We aim to address key challenges in these fields, including the improvement of biomaterial design, enhancement of cellular interactions, and optimization of delivery strategies. Through interdisciplinary collaboration efforts, we seek to accelerate the development of innovative therapies that can effectively regenerate tissues and organs, ultimately improving patient outcomes and quality of life.This Research Topic welcomes contributions covering various aspects of biomaterials and nanobiotechnology in regenerative medicine, tissue engineering, and organ engineering. Specific themes of interest include, but are not limited to:1. Design and fabrication technologies for nanostructured materials2. New biomaterials and fabrication technologies for tissue engineering and organ construction3. Engineering of cellular microenvironments using biomaterials and nanotechnology4. Organoids and the role of biomaterials/nanotechnologies in their construction5. Immune reactions to biomaterials and nanomaterials6. Development of nanocarriers for controlled drug delivery in regenerative medicine7. Safety aspects of new biomaterials and nanotechnologiesWe encourage the submission of original research articles, reviews, and perspectives that provide insights into cutting-edge developments, challenges, and future directions in this rapidly evolving field.