Bone Biomaterials Research and 3D Spheroid Culture Systems in Osteogenesis
A special issue of International Journal of Molecular Sciences (ISSN 1422-0067). This special issue belongs to the section "Materials Science".
Deadline for manuscript submissions: 20 January 2025 | Viewed by 2596
Special Issue Editor
Special Issue Information
Dear Colleagues,
Various methods for bone research have been suggested, and many studies have focused on the most suitable materials and research methods for living organisms. However, it is still difficult to create standardized data according to the experimental environment and materials. To overcome this, a Special Issue dedicated to the intersection of “Bone Biomaterials Research and 3D Spheroid Culture Systems in Osteogenesis”, is a field poised to revolutionize our understanding of bone tissue engineering. This thematic collection aims to provide a comprehensive platform for researchers to explore the intricate molecular mechanisms underpinning osteogenesis within the context of 3D spheroid culture systems.
The interaction of bone biomaterials and 3D spheroid culture techniques represents a groundbreaking approach, offering unique insights into the complex interplay between cells, biomaterials, and their microenvironment during bone regeneration. This Special Issue invites researchers to contribute your original work, spanning from material design and fabrication processes to in-depth investigations into the molecular mechanisms governing osteogenic differentiation within 3D spheroid cultures.
As we delve into the molecular intricacies of osteogenesis, contributors are encouraged to explore themes such as signaling pathways, gene expression profiles, and cell-cell interactions that influence the fate of osteoprogenitor cells in 3D culture systems. We anticipate that this Special Issue will serve as a catalyst for innovative research at the crossroads of bone biomaterials and 3D spheroid cultures, fostering collaboration and driving advancements in regenerative medicine.
Researchers from diverse backgrounds are invited to submit their cutting-edge contributions, fostering a vibrant exchange of ideas and accelerating the translation of discoveries into practical applications. Together, let us unravel the mysteries of bone biomaterials and 3D spheroid culture systems, paving the way for transformative developments in the realm of osteogenesis research.
Dr. Chawon Yun
Guest Editor
Manuscript Submission Information
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Keywords
- osteogenic differentiation
- 3D culture
- bone regeneration
- toxicological and pharmacological assessment
- bone homeostasis
- bone materials
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