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find Keyword "bioink" 3 results
  • Research progress of three-dimensional bioprinting technology in auricle repair and reconstruction

    Objective To review the research progress on the application of three-dimensional (3D) bioprinting technology in auricle repair and reconstruction. Methods The recent domestic and international research literature on 3D printing and auricle repair and reconstruction was extensively reviewed, and the concept of 3D bioprinting technology and research progress in auricle repair and reconstruction were summarized. Results The auricle possesses intricate anatomical structure and functionality, necessitating precise tissue reconstruction and morphological replication. Hence, 3D printing technology holds immense potential in auricle reconstruction. In contrast to conventional 3D printing technology, 3D bioprinting technology not only enables the simulation of auricular outer shape but also facilitates the precise distribution of cells within the scaffold during fabrication by incorporating cells into bioink. This approach mimics the composition and structure of natural tissues, thereby favoring the construction of biologically active auricular tissues and enhancing tissue repair outcomes. Conclusion 3D bioprinting technology enables the reconstruction of auricular tissues, avoiding potential complications associated with traditional autologous cartilage grafting. The primary challenge in current research lies in identifying bioinks that meet both the mechanical requirements of complex tissues and biological criteria.

    Release date:2024-06-14 09:52 Export PDF Favorites Scan
  • Research progress of decellularized extracellular matrix in the field of tissue engineering in thoracic and cardiac surgery

    [Abstract]Extracellular matrix (ECM) provides a unique tissue-specific microenvironment for resident cells with the structure and biochemical signaling required for their functioning. Decellularized extracellular matrix (dECM) is designed to remove cells that mediate immune rejection and retain the original tissue structure and matrix function. dECM has attracted extensive attention in tissue engineering and has become a new full-fledged tissue engineering material. This article summarizes representative methods for decellularization, and discusses the emerging frontiers of decellularized tissue-derived materials and bioinks in the field of thoracic and cardiovascular surgery. Finally, we analyze the current problems and challenges faced by decellularized matrices, and anticipate future development trends.

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  • Research progress of shear-thinning bioink in 3D bioprinting tissue trachea

    Shear thinning is an ideal feature of bioink because it can reduce the chance of blocking. For extrusion based biological printing, bioink will experience shear force when passing through the biological printer. The shear rate will increase with the increase of extrusion rate, and the apparent viscosity of shear-thinning bioink will decrease, which makes it easier to block, thus achieving the structural fidelity of 3D printing tissue. The manufacturing of complex functional structures in tissue trachea requires the precise placement and coagulation of bioink layer by layer, and the shear-thinning bioink may well meet this requirement. This review focuses on the importance of mechanical properties, classification and preparation methods of shear-thinning bioink, and lists its current application status in 3D printing tissue trachea to discuss the more possibilities and prospects of this biological material in tissue trachea.

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