
Dear Colleagues,
3D printing technology is regarded as an ideal method for producing personalized medical devices due to its flexibility and high manufacturing efficiency. Currently, 3D-printed medical devices have been widely used in clinical treatments, including 3D-printed surgical models, guides, implants, and organoids containing active biological components such as cells and growth factors. These 3D-printed medical devices play a crucial role in surgical planning and implementation, achieving excellent clinical outcomes.The scientific community continues to explore novel materials, advanced processing techniques, and innovative mechanisms of 3D printed instruments to achieve breakthroughs in reconstruction and regeneration fields, ultimately achieving the goal of personalized precision medicine.
Examples of relevant topics include but are not limited to:
- Novel materials, structures, processing techniques for 3D-printed implants
- Clinical research on 3D-printed medical devices
- Strucutural and mechanical analysis of 3D printed implants
- Organoids for clinical application
- Novel bio-ink for biomedical application
- Innovative materials and strucutres for 3D printing in regeneration filed
Si–C covalent bonding-mediated interfacial charge transfer enhances photodynamic antitumor effects of selective laser sintered bone scaffolds
3D-bioprinted asymmetric bilayer scaffolds with anti-infection and pro-regeneration characteristics for chronic diabetic wound healing
Neuromodulation with a 3D-printed, patient-specific hand orthotic in stroke: A proof-of-concept fMRI case series on clinical application
3D-bioprinted skin-mimicking bilayer hydrogel dressing with compartmentalized antibacterial and pro-healing functions for diabetic wounds
Emerging bioprinting strategies for osteoporosis research and bone regeneration
Data-driven design and mechanical validation of 3D-printed biphasic osteochondral scaffolds with interlocking interface using Ti6Al4V
The application of three-dimensional printing technology in breast reconstruction
Convergence of 3D bioprinting, bone organoids, and organ-on-chip systems for orthopedic disease modeling and regenerative applications
Development and characterization of a novel anti-reflux artificial lacrimal duct via 3D printing for lacrimal system reconstruction

