Peer-reviewed veterinary case report
Dog muscle and tendon injury treated with biologic scaffold remodeling
By Turner, Neill J et al.·Published in The Journal of surgical research·2012·McGowan Institute for Regenerative Medicine, United States·View original on PubMed →
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Original publication title: Biologic scaffold remodeling in a dog model of complex musculoskeletal injury.
- Species:
- dog
Plain-English summary
A group of dogs with severe muscle injuries in their thigh were treated with a special biologic scaffold made from pig tissue to help repair the damaged muscles. The treatment involved replacing a section of their quadriceps muscle and tendon with this scaffold. While the scaffold did not fully restore functional muscle tissue, it did help with the healing process by promoting blood vessel growth and some muscle cell migration. The study suggests that this type of scaffold could be useful for helping soft tissues heal when placed near bone, even if it doesn't completely restore muscle function.
People also search for: dog muscle injury treatment · dog quadriceps injury recovery · biologic scaffold for dog muscle repair
Abstract
BACKGROUND: Current treatment principles for muscle injuries with volumetric loss have been largely derived from empirical observations. Differences in severity or anatomic location have determinant effects on the tissue remodeling outcome. Biologic scaffolds composed of extracellular matrix (ECM) have been successfully used to restore vascularized, innervated, and contractile skeletal muscle in animal models but limited anatomic locations have been evaluated. The aim of this study was to determine the ability of a xenogeneic ECM scaffold to restore functional skeletal muscle in a canine model of a complex quadriceps injury involving bone, tendon, and muscle. MATERIALS AND METHODS: Sixteen dogs were subjected to unilateral resection of the distal third of the vastus lateralis and medial half of the distal third of the vastus medialis muscles including the proximal half of their associated quadriceps tendon. This defect was replaced with a biologic scaffold composed of small intestinal submucosa extracellular matrix (SIS-ECM) and the remodeling response was evaluated at 1, 2, 3, and 6 mo (N = 4 per group). RESULTS: The initial remodeling process followed a similar pattern to other studies of ECM-mediated muscle repair with rapid vascularization and migration of myoblasts into the defect site. However, over time the remodeling response resulted in the formation of dense collagenous tissue with islands of muscle in the segments of the scaffold not in contact with bone, and foci of bone and cartilage in the segments that were adjacent to the underlying bone. CONCLUSIONS: SIS-ECM was not successful at restoring functional muscle tissue in this model. However, the results also suggest that SIS-ECM may have potential to promote integration of soft and boney tissues when implanted in close apposition to bone.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/22341350/