PEER-REVIEWED PUBLICATION

2024

3D bioartificial stretchable scaffolds mimicking the mechanical hallmarks of human cardiac fibrotic tissue

Spedicati M, Tivano F, et al.

International Journal of Bioprinting

Politecnico di Torino, Centro 3R, University of Bergamo

RESEARCH SUMMARY

This study developed 3D stretchable bioartificial scaffolds composed of poly(ε-caprolactone) (PCL) and gelatin methacryloyl (GelMA) hydrogels, designed to mimic the mechanical properties of human cardiac fibrotic tissue. The scaffolds were fabricated using melt extrusion additive manufacturing and tested under both static and dynamic mechanical conditions. Cyclic tensile stimulation (10% deformation at 1 Hz) using the MechanoCulture T6 induced α-smooth muscle actin (α-SMA) expression in human cardiac fibroblasts (HCFs), indicating myofibroblast activation. The model successfully recapitulated the stiffness (6–10 MPa) and deformation (22%) typical of fibrotic myocardium, offering a robust in vitro platform for cardiac fibrosis research and drug/device testing.

The MechanoCulture T6 bioreactor applied cyclic uniaxial stretch (10% strain, 1 Hz) for 7 days following 7 days of static culture to PCL/GelMA scaffolds seeded with human cardiac fibroblasts. The bioreactor provided controlled, reproducible mechanical loading in a humidified incubator (37 °C, 5% CO₂), enabling assessment of myofibroblast activation under dynamic mechanical conditions.

AUTHORS

Spedicati M, Tivano F, Zoso A, Bei J, Lavella M, Carmagnola I, Chiono V.

PUBLICATION DETAILS

JOURNAL

International Journal of Bioprinting

YEAR

2024

INSTITUTIONS

Politecnico di Torino, Centro 3R, University of Bergamo

COUNTRIES

Italy

INSTRUMENT USED

MechanoCulture T6

TESTING METHODS

Hydrated and Temperature Controlled TestingTensile TestingViscoelastic & Time-Dependent Testing

RESEARCH APPLICATIONS

Cardiac Tissue Engineering & MechanicsCell Laden HydrogelsFibrosis & Tissue RemodelingHydrogel Mechanical TestingScaffold Mechanical Testing

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