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Melt Electrowriting: A Promising 3D Printing Technology for Cartilage and Osteochondral Repair

S. Zhou, Jiyao Xing, Li Sun, Xiao Hu, Ting Liu, Qing Liu, Zongying Zhang, Minglu Hao, Bing Liang, Dongming Xing

2023Advanced Therapeutics14 citationsDOIOpen Access PDF

Abstract

Abstract Articular cartilage injuries and osteochondral defects are a significant clinical challenge, as conventional treatments often have limited success. Articular cartilage has limited self‐regeneration ability due to the absence of blood vessels, nerves, and lymphatic vessels, making it challenging to repair tissue defects and restore motor function in injured or aging populations. Additionally, the anatomical complexity and slow regeneration capacity of hyaline cartilage at the osteochondral interface pose significant problems in repairing osteochondral defects. Melt electrowriting, a novel technology particularly suitable for polycaprolactone (PCL) is expected to overcome the common limitations of 3D‐printed scaffolds, such as poor tissue‐porosity matching, low resolution, and inflexible shapes. In recent years, melt electrowriting (MEW) has become a promising strategy for repairing cartilage and osteochondral defects. However, there is still a lack of systematic understanding regarding the comparative characteristics and application value of MEW compared with commonly used 3D printing technologies such as extrusion printing, inkjet printing, and fusion deposition modeling. This review paper compares the characteristics and advantages of MEW and common 3D printing technologies, providing a comprehensive summary of the significant progress and applications of MEW for cartilage/osteochondral repair. Finally, the challenges and key directions for future research in MEW technology will also be discussed.

Topics & Concepts

CartilageHyaline cartilageRegeneration (biology)Biomedical engineering3D printing3d printed3D bioprintingComputer scienceMaterials scienceTissue engineeringArticular cartilageMedicineAnatomyBiologyPathologyOsteoarthritisComposite materialCell biologyAlternative medicineAdditive Manufacturing and 3D Printing Technologies3D Printing in Biomedical ResearchBone Tissue Engineering Materials
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