Stem Cells, Biomaterials and Tissue Engineering

The Journal of Stem Cells, Biomaterials and Tissue Engineering publishes original research articles, reviews, short communications, case studies, and technical perspectives that explore every aspect of regenerative medicine and biomaterial science. We welcome submissions across a wide range of thematic areas, including (but not limited to):

Stem Cell Biology & Regenerative Mechanisms

• Isolation, characterization, and differentiation of embryonic, adult, and induced pluripotent stem cells
• Stem cell signaling pathways, cellular reprogramming, and lineage commitment
• Mechanisms of regeneration, repair, and stem cell–mediated tissue restoration

Biomaterials for Regeneration & Repair

• Design, synthesis, and characterization of natural, synthetic, and hybrid biomaterials
• Bioactive materials, hydrogels, scaffolds, nanomaterials, and bioceramics for tissue engineering
• Surface modification, biodegradation, and biocompatibility evaluations

Tissue Engineering & Organ Biofabrication

• Engineering of bone, cartilage, skin, neural, cardiovascular, and dental tissues
• 3D bioprinting, organoids, microtissues, and scaffold-free constructs
• Cell–material interactions, mechanobiology, and tissue maturation strategies

Cell-Based Therapies & Clinical Translation

• Stem cell therapeutics, cell transplantation techniques, and regenerative clinical protocols
• Immunomodulation, host integration, and long-term therapeutic outcomes
• Clinical case studies, translational pathways, and regulatory considerations

Nanotechnology & Advanced Biomedical Systems

• Nanomaterials for targeted delivery, imaging, and regenerative enhancement
• Nano-bio interfaces, smart biomaterials, and stimuli-responsive systems
• Nanostructured scaffolds for improved cell adhesion and tissue formation

Bioprinting, Biofabrication & Microengineering Technologies

• Advanced bioprinting strategies, bioinks, and scaffold design
• Microfluidics, organ-on-chip systems, and high-fidelity tissue models
• Precision engineering tools for controlled microenvironments

Stem Cell Genomics, Proteomics & Computational Modeling

• Multi-omics approaches to stem cell differentiation and tissue formation
• Systems biology, molecular pathway analysis, and predictive modeling
• AI/ML applications in biomaterial design and regenerative medicine optimization

Emerging, Interdisciplinary & Applied Regenerative Science

• Applications in orthopedics, dentistry, neurology, cardiology, and wound healing
• Integration of biotechnology, materials science, and clinical medicine
• Ethics, safety, regulatory frameworks, and future directions in regenerative medicine