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Journal of tissue engineering
2013;4 2041731413505305.

Process-induced extracellular matrix alterations affect the mechanisms of soft tissue repair and regeneration.

Wendell Q Sun, Hui Xu, Maryellen Sandor, Jared Lombardi
Author Information
  1. Wendell Q Sun: Institute of Biomedical Technology, School of Medical Instruments and Food Engineering, University of Shanghai for Science and Technology, Shanghai, China ; LifeCell Corporation, Bridgewater, NJ, USA.
  2. Hui Xu: LifeCell Corporation, Bridgewater, NJ, USA.
  3. Maryellen Sandor: LifeCell Corporation, Bridgewater, NJ, USA.
  4. Jared Lombardi: LifeCell Corporation, Bridgewater, NJ, USA.
PMID: 24555005 DOI: 10.1177/2041731413505305

Abstract

Extracellular matrices derived from animal tissues for human tissue repairs are processed by various methods of physical, chemical, or enzymatic decellularization, viral inactivation, and terminal sterilization. The mechanisms of action in tissue repair vary among bioscaffolds and are suggested to be associated with process-induced extracellular matrix modifications. We compared three non-cross-linked, commercially available extracellular matrix scaffolds (Strattice, Veritas, and XenMatrix), and correlated extracellular matrix alterations to in vivo biological responses upon implantation in non-human primates. Structural evaluation showed significant differences in retaining native tissue extracellular matrix histology and ultrastructural features among bioscaffolds. Tissue processing may cause both the condensation of collagen fibers and fragmentation or separation of collagen bundles. Calorimetric analysis showed significant differences in the stability of bioscaffolds. The intrinsic denaturation temperature was measured to be 51°C, 38°C, and 44°C for Strattice, Veritas, and XenMatrix, respectively, demonstrating more extracellular matrix modifications in the Veritas and XenMatrix scaffolds. Consequently, the susceptibility to collagenase degradation was increased in Veritas and XenMatrix when compared to their respective source tissues. Using a non-human primate model, three bioscaffolds were found to elicit different biological responses, have distinct mechanisms of action, and yield various outcomes of tissue repair. Strattice permitted cell repopulation and was remodeled over 6 months. Veritas was unstable at body temperature, resulting in rapid absorption with moderate inflammation. XenMatrix caused severe inflammation and sustained immune reactions. This study demonstrates that extracellular matrix alterations significantly affect biological responses in soft tissue repair and regeneration. The data offer useful insights into the rational design of extracellular matrix products and bioscaffolds of tissue engineering.

Keywords

Biological scaffold bovine pericardium decellularization extracellular matrix matrix remodeling porcine dermis soft tissue regeneration tissue engineering

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