Frontiers in Bioengineering and Biotechnology (Mar 2024)

Towards optimized tissue regeneration: a new 3D printable bioink of alginate/cellulose hydrogel loaded with thrombocyte concentrate

  • Till Grandjean,
  • Natarajan Perumal,
  • Caroline Manicam,
  • Björn Matthey,
  • Tao Wu,
  • Daniel G. E. Thiem,
  • Stefan Stein,
  • Dirk Henrich,
  • Peer W. Kämmerer,
  • Bilal Al-Nawas,
  • Ulrike Ritz,
  • Ulrike Ritz,
  • Sebastian Blatt,
  • Sebastian Blatt

DOI
https://doi.org/10.3389/fbioe.2024.1363380
Journal volume & issue
Vol. 12

Abstract

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Introduction:Autologous platelet concentrate (APC) are pro-angiogenic and can promote wound healing and tissue repair, also in combination with other biomaterials. However, challenging defect situations remain demanding. 3D bioprinting of an APC based bioink encapsulated in a hydrogel could overcome this limitation with enhanced physio-mechanical interface, growth factor retention/secretion and defect-personalized shape to ultimately enhance regeneration.Methods:This study used extrusion-based bioprinting to create a novel bioink of alginate/cellulose hydrogel loaded with thrombocyte concentrate. Chemico-physical testing exhibited an amorphous structure characterized by high shape fidelity. Cytotoxicity assay and incubation of human osteogenic sarcoma cells (SaOs2) exposed excellent biocompatibility. enzyme-linked immunosorbent assay analysis confirmed pro-angiogenic growth factor release of the printed constructs, and co-incubation with HUVECS displayed proper cell viability and proliferation. Chorioallantoic membrane (CAM) assay explored the pro-angiogenic potential of the prints in vivo. Detailed proteome and secretome analysis revealed a substantial amount and homologous presence of pro-angiogenic proteins in the 3D construct.Results:This study demonstrated a 3D bioprinting approach to fabricate a novel bioink of alginate/cellulose hydrogel loaded with thrombocyte concentrate with high shape fidelity, biocompatibility, and substantial pro-angiogenic properties.Conclusion:This approach may be suitable for challenging physiological and anatomical defect situations when translated into clinical use.

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