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Research

MODIFICATION OF DECELLULARIZATION METHODS TO ASSESS THE EFFECTS OF SWELLING ON THE MECHANICAL PROPERTIES AND COMPOSITION OF PORCINE TENDON

The British Orthopaedic Research Society (BORS) Annual Meeting 2021, held online, 13–14 September 2021.



Abstract

Abstract

Decellularised porcine superflexor tendon (pSFT) provides an off-the-shelf, cost-efficient option for ACL reconstruction (ACLR). During decellularisation, phosphate buffered saline (PBS) is used for washing out cytotoxic solutes and reagents, maintaining tissue hydration. It has been shown to increase water content in tendon, swelling the tissue reducing mechanical properties. End stage PBS washes in the standard protocol were substituted with alternative solutions to study tissue swelling and its impact on the mechanical behaviour and matrix composition of pSFTs. 25%, 100% Ringers and physiological saline test groups were used (n=6 for all groups). pSFTs were subject to tensile and confined compression testing. Relative hydroxyproline (HYP), glycosaminoglycan (GAG) and denatured collagen content (DNC) were quantified. Modified decellularised tendon groups were compared to tendons decellularised using the standard protocol and native tendons. Specimen dimensions reduced (p=0.004) post-decellularisation only in 25% Ringers group. In all other modified groups, less swelling was apparent but not statistically different from standard group. Only 25% Ringers group had higher linear modulus (p=0.0035) and UTS (p=0.013) compared to standard group. All decellularised groups properties were reduced compared to native pSFTs. Stress relaxation properties showed a significant reduction in decellularised groups compared to native. Compression testing showed no significant differences in peak stress for modified decellularised groups compared to native. A reduction (p=0.036) was observed in standard group. Quantification of GAGs and DNC showed no significant differences between groups. HYP content was higher (p<0.0001) for saline group. A significant reduction in tissue swelling could be related to improved mechanical properties of decellularised pSFTs. Alternative solutions in end stage washes had no significant effect on quantities of matrix components, but altered structure/function could explain the differences in tensile and compressive behaviour, and should be further studied. In all decellularised groups, pSFTs retained suitable mechanical properties for ACLR.