3D Printing in Clinical Application

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3D Printing in Clinical Application

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Journal: International Journal of Bioprinting

Submission Deadline: 15 June 2026

Special Issue Editor

Yongqiang Hao (Clinician)

Shanghai Ninth People's Hospital, Shanghai Jiao Tong University School of Medicine, Shanghai, China

Interests:

3D Printing personalized implants; Clinical application of 3D printing; Bioprinting; Biomaterials

Special Issue Information

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

International Journal of Bioprinting, Electronic ISSN: 2424-8002 Print ISSN: 2424-7723, Published by AccScience Publishing