Surgical Resection of Haglund's Deformity by Achilles Tendon Splitting Approach

Insertional Achilles tendinopathy (IAT) is a frequent cause of posterior heel pain and is often associated with Haglund’s deformity. Surgical correction for refractory cases of IAT has been well studied; however, the method of tendon fixation to bone in these procedures remains controversial, and to date, no standard technique has been identified for tendon fixation in these surgeries. Often, after Haglund’s resection, there is large exposed cancellous surface for Achilles reattachment, which may require unique fixation to optimize outcomes. Previous studies have consistently demonstrated improved patient outcomes after Achilles tendon reconstruction with early rehabilitation with protected weight bearing, evidencing the need for a strong and stable anchoring of the Achilles tendon that allows early weight bearing without tendon morbidity. In this report, we highlight the design, biomechanics, and surgical technique of Achilles tendon reconstruction with Haglund’s deformity using a novel technique that utilizes ultrasonic energy to liquefy the suture anchor, allowing it to incorporate into surrounding bone. Biomechanical studies have demonstrated superior strength of the suture anchor utilizing this novel technique as compared with prior techniques. However, future research is needed to ensure that outcomes of this technique are favorable when compared with outcomes using traditional suture anchoring methods. Levels of Evidence: Level V: Operative technique

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Histologic Evaluation of a 6-Month GraftJacket Matrix Biopsy Used for Achilles Tendon Augmentation

Journal of the American Podiatric Medical Association ◽

10.7547/0980104 ◽

2009 ◽

Vol 99 (2) ◽

pp. 104-107 ◽

Cited By ~ 18

Author(s):

Brock A. Liden ◽

Melitta Simmons

Keyword(s):

Achilles Tendon ◽

Primary Repair ◽

Tendon Repair ◽

Host Cells ◽

Dermal Matrix ◽

Hardware Failure ◽

Noninvasive Measurements ◽

Histologic Evaluation ◽

Haglund’S Deformity ◽

Functional Outcome Measures

Background: Assessing implanted biological reinforcement graft success in soft-tissue repairs is typically limited to noninvasive measurements and functional outcome measures. However, there are times when a histologic snapshot of the graft incorporation may be possible owing to a nongraft-related postoperative complication, such as hardware failure. Methods: We histologically evaluated a 6-month biopsy sample from an Achilles tendon repair augmented with an acellular human dermal matrix (AHDM). A 57-year-old woman was treated for Haglund’s deformity of the Achilles tendon. The Achilles tendon was fixed to the calcaneus using a plate, and an AHDM was used to augment the primary repair of the tendon. At 6 months, the hardware was removed owing to prominence, and a biopsy of the AHDM was performed. The specimen was prepared and stained using hematoxylin and eosin, Verhoeff-van Gieson, Movat’s pentachrome, and toluidine blue stains. Results: Visually, the graft appeared normal and incorporated with the native tendon. No repeated tear was observed, and results of tests for infection were negative. Histologically, the graft was infiltrated predominantly with fibroblasts and demonstrated numerous blood vessels. Positive proteoglycan staining in the AHDM and at sites of vascularity indicated probable transformation to tendon-like tissue. Conclusions: These histologic findings suggest that the AHDM is highly biocompatible, supports revascularization and repopulation with noninflammatory host cells, and becomes incorporated by surrounding tendon tissue. (J Am Podiatr Med Assoc 99(2): 104–107, 2009)

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