PEER-REVIEWED PUBLICATION

2025

Biofabrication of an ovine intervertebral disc model by combining a polycaprolactone frame with a bioprinted alginate hydrogel

Carrot E, Chaaban M, et al.

Biofabrication

CHU Nantes, Trinity College Dublin, INSERM

RESEARCH SUMMARY

This work reports the first biofabricated 3D ovine intervertebral disc (IVD) model combining melt electrowritten polycaprolactone (PCL) frames and bioprinted alginate-methacrylamide (AlgMA) hydrogels encapsulating nucleus pulposus (NP) and annulus fibrosus (AF) cells. The AlgMA hydrogel was formulated to approximate the native NP stiffness (~6 kPa), while the PCL frame guided AF cell alignment into lamellar organization. NP cells maintained a spherical morphology and high viability (~80 % over 28 days), whereas AF cells elongated and aligned along PCL fibers and expressed collagen types I and II. The composite construct successfully replicates the native anatomical architecture of ovine IVDs, providing a predictive platform for studying disc degeneration and therapeutic responses.

Unconfined compression testing of AlgMA hydrogels was performed using a CellScale MicroTester® to determine Young’s modulus and optimize stiffness matching to native nucleus pulposus tissue. Hydrogels (1.5 mm × 5 mm) were compressed to 20 % strain under a 6 mm stainless-steel plate mounted on a tungsten microbeam (0.558 mm diameter). Force–displacement data were used to calculate modulus via E = (F/A)/(Δl/l₀). This testing guided selection of 2 % AlgMA crosslinked under 405 nm (10 mJ/mm²) for 6 ± 2 kPa stiffness, closely mimicking native disc mechanics.

AUTHORS

Emmaëlle Carrot, Mansoor Chaaban, Daronne Cano Contreras, Clara Schiex, Joëlle Véziers, Boris Halgand, François Loll, Johann Clouet, Michael G. Monaghan, Marion Fusellier, Jérôme Guicheux, Vianney Delplace, Catherine Le Visage.

PUBLICATION DETAILS

JOURNAL

Biofabrication

YEAR

2025

INSTITUTIONS

CHU Nantes, Trinity College Dublin, INSERM

COUNTRIES

France, Ireland

INSTRUMENT USED

MicroTester

TESTING METHODS

Compression Testing

RESEARCH APPLICATIONS

3D Bioprinting & Bioink Materials TestingCell Laden HydrogelsECM & Decellularized Matrix MechanicsIntervertebral Disc BiomechanicsMechanotransductionMusculoskeletal Tissue Engineering & MechanicsOrganoid and Tissue Mimetic Systems

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