Development of Improved Confined Compression Testing Setups for Use in Stress Relaxation Testing of Viscoelastic Biomaterials

Author:

El Kommos Anthony1ORCID,Jackson Alicia R.1,Andreopoulos Fotios1ORCID,Travascio Francesco234ORCID

Affiliation:

1. Department of Biomedical Engineering, University of Miami, Coral Gables, FL 33146, USA

2. Department of Mechanical and Aerospace Engineering, University of Miami, Coral Gables, FL 33146, USA

3. Department of Orthopaedic Surgery, University of Miami, Miami, FL 33136, USA

4. Max Biedermann Institute for Biomechanics, Mount Sinai Medical Center, Miami Beach, FL 33140, USA

Abstract

The development of cell-based biomaterial alternatives holds significant promise in tissue engineering applications, but it requires accurate mechanical assessment. Herein, we present the development of a novel 3D-printed confined compression apparatus, fabricated using clear resin, designed to cater to the unique demands of biomaterial developers. Our objective was to enhance the precision of force measurements and improve sample visibility during compression testing. We compared the performance of our innovative 3D-printed confined compression setup to a conventional setup by performing stress relaxation testing on hydrogels with variable degrees of crosslinking. We assessed equilibrium force, aggregate modulus, and peak force. This study demonstrates that our revised setup can capture a larger range of force values while simultaneously improving accuracy. We were able to detect significant differences in force and aggregate modulus measurements of hydrogels with variable degrees of crosslinking using our revised setup, whereas these were indistinguishable with the convectional apparatus. Further, by incorporating a clear resin in the fabrication of the compression chamber, we improved sample visibility, thus enabling real-time monitoring and informed assessment of biomaterial behavior under compressive testing.

Funder

NIH

Publisher

MDPI AG

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