Results 1 to 10 of about 45,200 (331)
Bioactive Materials, 2023 Three–dimensional bioprinting is an advanced tissue fabrication technique that allows printing complex structures with precise positioning of multiple cell types layer–by–layer.
Harshavardhan Budharaju +2 more
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Emerging 3D bioprinting applications in plastic surgery
Biomaterials Research, 2023 Plastic surgery is a discipline that uses surgical methods or tissue transplantation to repair, reconstruct and beautify the defects and deformities of human tissues and organs.
Pu Yang +5 more
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Stereolithography apparatus and digital light processing-based 3D bioprinting for tissue fabrication
iScience, 2023 Summary: Three-dimensional (3D) bioprinting has emerged as a class of promising techniques in biomedical research for a wide range of related applications.
Wanlu Li +5 more
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An Overview of 3D Bioprinting Impact on Cell Viability: From Damage Assessment to Protection Solutions [PDF]
Journal of Functional BiomaterialsThree-dimensional (3D) bioprinting has become a widely exploited tissue engineering technique for producing functional constructs that can mimic and replace native tissues. To this end, different printing strategies can be adopted, including inkjet-based,
Sara Manzoli +5 more
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AI-driven 3D bioprinting for regenerative medicine: From bench to bedside
Bioactive MaterialsIn recent decades, 3D bioprinting has garnered significant research attention due to its ability to manipulate biomaterials and cells to create complex structures precisely.
Zhenrui Zhang +4 more
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Frontiers in Bioengineering and Biotechnology, 2023 Organoids are advancing the development of accurate prediction of drug efficacy and toxicity in vitro. These advancements are attributed to the ability of organoids to recapitulate key structural and functional features of organs and parent tumor ...
Di Bao +9 more
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Articular Cartilage Regeneration through Bioassembling Spherical Micro-Cartilage Building Blocks
Cells, 2022 Articular cartilage lesions are prevalent and affect one out of seven American adults and many young patients. Cartilage is not capable of regeneration on its own.
Brian E. Grottkau +2 more
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Application of Hydrogels as Three-Dimensional Bioprinting Ink for Tissue Engineering
Gels, 2023 The use of three-dimensional bioprinting technology combined with the principle of tissue engineering is important for the construction of tissue or organ regeneration microenvironments. As a three-dimensional bioprinting ink, hydrogels need to be highly
Mengbo Xie +4 more
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Communications Biology, 2022 Fibrin gel-based 3D co-culture models with human-iPSC differentiated dopaminergic or glutamatergic neurons and astrocytes are shown to be functional using biosensors and can be scaled up for high-throughput assays.
Srikanya Kundu +4 more
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Convergence of 3D Bioprinting and Nanotechnology in Tissue Engineering Scaffolds
Biomimetics, 2023 Three-dimensional (3D) bioprinting has emerged as a promising scaffold fabrication strategy for tissue engineering with excellent control over scaffold geometry and microstructure.
Shike Zhang +9 more
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