Biomedicines (Mar 2025)
Reconstruction of Chronic Quadriceps and Achilles Tendon Ruptures Using Achilles Allografts: Clinical Findings and Review of Literature
Abstract
Background/Objectives: Chronic ruptures of the quadriceps and Achilles tendons present significant reconstructive challenges due to factors such as tendon retraction, scar tissue formation, and compromised tissue quality. Traditional repair methods, including V–Y tendinoplasty, autografts, and synthetic scaffolds, often prove inadequate for large or neglected defects. Achilles tendon bone–tendon allografts have emerged as a promising alternative, offering strong fixation, biological incorporation, and sufficient length for bridging extensive gaps. This study aims to document the clinical, radiographic, and MRI outcomes of two challenging cases treated with Achilles tendon bone–tendon allografts and to synthesize these findings within the context of the existing literature to evaluate the broader viability of this reconstructive approach. Methods: An observational analysis was conducted at the Orthopedic and Traumatology Clinic of “Victor Popescu” Military Emergency Hospital in Timișoara, encompassing two patients with chronic, iterative tendon ruptures—one quadriceps tendon rupture and one Achilles tendon rupture. Both patients had previously failed primary repairs, resulting in significant tendon retraction and tissue deficits. Reconstruction was performed using Achilles tendon bone–tendon allografts, involving specific osteotomy techniques for patellar and calcaneal fixation. Postoperative protocols included immobilization followed by structured physiotherapy. Clinical assessments and MRI evaluations were conducted at 8, 12, and 24 weeks postoperatively. Additionally, a comprehensive literature review was performed to compare our findings with existing studies on Achilles bone–tendon allograft utilization in chronic tendon reconstructions. Results: Both patients exhibited substantial improvements in their range of motion and reported low pain levels at the 8- and 12-week follow-ups. MRI assessments indicated well-aligned graft fibers, early bone block integration, and the absence of complications such as re-rupture or infection in the long term. Functional recovery was achieved with complete bone block union and return to normal activities by 24 weeks. The literature review corroborated these outcomes, demonstrating that Achilles tendon bone–tendon allografts provide robust fixation and facilitate biological integration, particularly in cases with large defects and poor tissue quality. Comparative studies highlighted similar functional improvements and graft stability, reinforcing the efficacy of bone–tendon allograft constructs over traditional repair methods in chronic tendon ruptures. Conclusions: Achilles tendon bone–tendon allografts are effective in reconstructing chronic quadriceps and Achilles tendon ruptures, offering robust fixation and facilitating biological integration. These findings, supported by the existing literature, suggest that Achilles bone–tendon allografts are a viable alternative to traditional repair strategies, especially in patients with extensive tendon defects and compromised tissue quality. Further comparative studies are warranted to establish the superiority of bone–tendon allograft constructs over conventional methods.
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