
doi: 10.3791/68050
pmid: 40788870
Vascularized composite allotransplantation (VCA) involves the transplantation of multiple tissue types -- including skin, muscle, bone, and nerves -- offering a promising reconstructive option for patients with severe traumatic injuries or disfigurements. Despite its transformative potential, VCA has encountered significant challenges such as graft rejection, chronic immunosuppression complications, and neuromuscular recovery's intricacies. We utilize a rat forelimb model as a cost-effective and anatomically relevant platform to address these challenges. The rat forelimb closely mirrors human limb anatomy, enhancing our findings' translational impact. Previous studies have validated this model for reliably and reproducibly measuring functional recovery, thereby establishing it as a key tool for assessing the rejection trajectory of forelimb grafts. Moreover, the model offers a valuable opportunity to explore innovative therapeutic approaches and serve as a good translational platform for novel preservation techniques. Through further investigation of this model, we aim to deepen our understanding of the mechanisms behind graft rejection and neuromuscular recovery. Ultimately, this work strives to pave the way for improving clinical outcomes of VCA, addressing both current limitations and future challenges in transplant medicine.
Vascularized Composite Allotransplantation, Male, Forelimb, Animals, Rats
Vascularized Composite Allotransplantation, Male, Forelimb, Animals, Rats
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