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Egg White Photocrosslinkable Hydrogels As Versatile Bioinks for Advanced Tissue Engineering Applications Publisher



Mahmoodi M1, 2, 3, 4, 5 ; Darabi MA1, 2, 3 ; Mohaghegh N1 ; Erdem A2, 6 ; Ahari A1 ; Abbasgholizadeh R1 ; Tavafoghi M2, 3 ; Mir Hashemian P7 ; Hosseini V1, 2, 3 ; Iqbal J2, 8 ; Haghniaz R1, 2, 3 ; Montazerian H2, 3 ; Jahangiry J2, 3 ; Nasrolahi F2, 3 Show All Authors
Authors
  1. Mahmoodi M1, 2, 3, 4, 5
  2. Darabi MA1, 2, 3
  3. Mohaghegh N1
  4. Erdem A2, 6
  5. Ahari A1
  6. Abbasgholizadeh R1
  7. Tavafoghi M2, 3
  8. Mir Hashemian P7
  9. Hosseini V1, 2, 3
  10. Iqbal J2, 8
  11. Haghniaz R1, 2, 3
  12. Montazerian H2, 3
  13. Jahangiry J2, 3
  14. Nasrolahi F2, 3
  15. Mirjafari A2, 3
  16. Pagan E9
  17. Akbari M1, 9
  18. Bae H10
  19. John JV1
  20. Heidari H1, 11
  21. Khademhosseini A1, 2, 3
  22. Hassani Najafabadi A1

Source: Advanced Functional Materials Published:2024


Abstract

Three dimensional (3D) bioprinting using photocrosslinkable hydrogels has gained considerable attention due to its versatility in various applications, including tissue engineering and drug delivery. Egg White (EW) is an organic biomaterial with excellent potential in tissue engineering. It provides abundant proteins, along with biocompatibility, bioactivity, adjustable mechanical properties, and intrinsic antiviral and antibacterial features. Here, a photocrosslinkable hydrogel derived from EW is developed through methacryloyl modification, resulting in Egg White methacryloyl (EWMA). Upon exposure to UV light, synthesized EWMA becomes crosslinked, creating hydrogels with remarkable bioactivity. These hydrogels offer adjustable mechanical and physical properties compatible with most current bioprinters. The EWMA hydrogels closely resemble the native extracellular matrix (ECM) due to cell-binding and matrix metalloproteinase-responsive motifs inherent in EW. In addition, EWMA promotes cell growth and proliferation in 3D cultures. It facilitates endothelialization when investigated with human umbilical vein endothelial cells (HUVECs), making it an attractive replacement for engineering hemocompatible vascular grafts and biomedical implants. In summary, the EWMA matrix enables the biofabrication of various living constructs. This breakthrough enhances the development of physiologically relevant 3D in vitro models and opens many opportunities in regenerative medicine. © 2024 Wiley-VCH GmbH.
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