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Cryobioprinted human tumor models with shelf-stable programmability.

Maria V Monteiro1, Carlos Ezio Garciamendez-Mijares2, David Sebastián Rendon Ruiz2

  • 1Department of Chemistry, CICECO - Aveiro Institute of Materials, University of Aveiro, Campus Universitário de Santiago, 3810-193, Aveiro, Portugal.

Trends in Biotechnology
|October 30, 2025
PubMed
Summary
This summary is machine-generated.

This study developed a novel cryoprotective strategy using decellularized extracellular matrix (dECM) bioinks for cryobioprinting pancreatic cancer models. The optimized formulation enables shelf-ready living constructs with enhanced cell viability for drug screening.

Keywords:
3D in vitro modelsbioinkcryobioprintingcryoprotective agentspancreatic cancer

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Area of Science:

  • Bioprinting and Tissue Engineering
  • Cryobiology
  • Cancer Modeling

Background:

  • Cryobioprinting offers simultaneous fabrication and cryopreservation of tissue analogs.
  • Effective cryopreservation of living constructs is limited by the need for cell-type and bioink-specific conditions.
  • Developing shelf-ready tissue models is crucial for advancing drug screening platforms.

Purpose of the Study:

  • To formulate a decellularized extracellular matrix (dECM)-based hydrogel bioink with cryoprotective agents (CPAs) for creating shelf-ready pancreatic cancer models.
  • To discover an optimal CPA combination for cryobioprinting tumor-stroma constructs.
  • To evaluate the viability and metabolic activity of cryopreserved constructs for in vitro applications.

Main Methods:

  • Combinatorial screening of CPAs within a dECM hydrogel.
  • Development of a novel melezitose-glycerol-dECM formulation.
  • Exometabolomics analysis to assess metabolic activity post-thawing.
  • Assessment of cell viability and suitability for in vitro drug screening.

Main Results:

  • A novel melezitose-glycerol-dECM formulation demonstrated superior cryoprotective properties for both tumor and stroma compartments.
  • Cryopreserved constructs maintained metabolic activity comparable to non-frozen controls 14 days post-thawing.
  • Cryobioprinted tumor-stroma models exhibited increased cell viability and were suitable for in vitro drug screening.

Conclusions:

  • The optimized cryoprotective strategy using dECM-CPA bioinks enables the creation of shelf-ready, living tissue constructs.
  • This approach enhances cell viability and metabolic function after cryopreservation.
  • The developed method opens avenues for cryobioprinting diverse tissue types for widespread drug screening and regenerative medicine.