Endoscopic Recession of the Gastrocnemius Tendon

Gastrocnemius recession: Discrepancies in the literature

A gastrocnemius contracture is a common problem that results in decreased ankle dorsiflexion that contributes to an array of foot and ankle ailments. A common surgical treatment for this condition is a gastrocnemius recession (GR). Many adaptations of the original procedure have been described. Misinterpretations of proper GR procedures have potentially caused confusion when selecting a treatment. This paper proposes to identify errors between the use of GR and gastrocnemius-soleus recession (GSR) procedure techniques in the current literature. A systematic literature review was performed in June 2021, using the PubMed database and select orthopedic texts. Only studies that met the established criteria and either correctly or incorrectly described a GR or GSR procedure were included. After applying exclusion criteria, 108 publications were included. These articles and texts were reviewed for surgical technique and terminology errors in accordance with established parameters. The articles were classified as either: "Correct" or "Incorrect." Of the 108 publications and texts included, 18 articles incorrectly described either a GR or a GSR (16.67%). Ninety articles correctly described either a GR or a GSR (83.33%). The literature supports the use of a GR to treat a gastrocnemius contracture. Inaccurate articles create confusion as to what exactly a GR entails. Sources of ambiguity included terminology, inconsistent anatomical zone definition, and technique selection. Due to this confusion, it is suspected that patient outcomes can be impacted. Postoperative outcomes of GSR patients are worse than GR patients. Further investigation is necessary to determine if performing the incorrect procedure negatively affects patient outcomes.

Surgical Anatomy of the Endoscopic Gastrocnemius Recession

The objective of this investigation was to analyze the surgical anatomy of the endoscopic gastrocnemius recession procedure with reference to the curved nature of the aponeurosis. A consecutive series of 34 magnetic resonance imaging scans were evaluated under the direction of a musculoskeletal radiologist. An angular calculation of the effective curvature of the aponeurosis was measured 2 cm distal to the musculotendinous junction based on the maximal posterior excursion and terminal medial and lateral edges. A frequency count was additionally performed of the number of deep intramuscular septa extending from the aponeurosis, as well as a description of the location of the neurovascular bundle in this location. The mean effective curvature was 126.5 degrees (standard deviation [SD] = 6.3 degrees, range 115-143 degrees, 95% confidence interval 124.3-128.7 degrees). We observed an average of 1.2 (SD = 0.5, range = 0-2) deep intramuscular septa extending from the aponeurosis, and that 20.6% of neurovascular bundles were located superficial to the aponeurosis in this location. In conclusion, we found that a straight cannula needs to be navigated around an approximate 125-degree angle during performance of the EGR procedure. We think that this information provides evidence of potentially unrecognized complications of this procedure and leads to future investigations demonstrating anatomic and procedural outcomes.

Endoscopic Haglund's Resection and Percutaneous Double-Row Insertional Achilles Repair

Insertional Achilles tendinopathy can be a debilitating condition that often fails to improve with nonsurgical management such as bracing and physical therapy. Traditional surgical techniques include an open debridement of the diseased tendon and resection of calcaneal spurs. This is followed by repair of the tendon. Suture anchors are often used to secure the tendon, but recent advances in tendon fixation, including the advent of double-row repairs, has allowed better biomechanical repairs and faster rehabilitation. Additionally, minimally invasive surgery and endoscopic techniques have advanced to allow successful treatment of all aspects of the condition while minimizing wound complications and infection. The authors present a technique to treat insertional Achilles tendinopathy and calcaneal bone spurs using minimally invasive surgery techniques while also incorporating a percutaneous double-row suture anchor repair. The technique utilizes 4 portals to access 2 endoscopic working planes. The burr is inserted deep to the tendon and the calcaneoplasty is performed. Subsequently, the endoscope is inserted alongside a shaver to remove bony debris and debulk the anterior aspect of the Achilles areas of tendinopathy. Following this, the portals are used to place a double-row suture anchor repair.Levels of Evidence: Level V.

Outcomes and Incidence of Complications Following Endoscopic Gastrocnemius Recession: A Systematic Review

Introduction: Equinus contracture of the ankle can lead to a multitude of foot and ankle pathologies. The gastrocnemius recession has been used to address equinus deformity via various methods, including either an open or an endoscopic approach. Open techniques require increased intraoperative time and complication risks of sural nerve injury, wound complications, and poor cosmesis. Resultantly, the aim of the current study is to review the complications and outcomes of the endoscopic gastrocnemius recession. Methods: A systematic review of electronic databases was performed. The authors compiled data from retrospective and prospective patient studies including general patient demographics, outcomes, qualitative scoring measures, complications, and surgical technique. Results: Eleven studies met our inclusion criteria. A total of 697 feet in 627 patients were included in the current systematic review. The weighted mean age was 45.3 years and weighted mean follow-up was 18.4 months. The most common indication for an endoscopic gastrocnemius recession was equinus contracture. The weighted mean preoperative ankle range of motion was -2.3° and the weighted postoperative ankle range of motion was 10.9°. The most common complications included plantarflexion weakness of the ankle at 3.5%, a sural nerve injury of 3.0% and wound complication rate was 1.0% with no deep infection. The overall complication rate was 7.5%. Conclusion: The endoscopic gastrocnemius recession is a valuable surgical tool in the treatment of ankle equinus. The endoscopic approach has satisfactory outcomes including low incidence of plantarflexion weakness and sural neuritis. Patients should be counseled on these risks preoperatively. Compared with previously reported systematic review of the open technique, the endoscopic approach has a lower overall incidence of complications. Prospective clinical trials comparing open and endoscopic techniques are warranted.Levels of Evidence: Level IV.

Gastrocnemius Recession for Metatarsalgia

Metatarsalgia is a common cause of plantar forefoot pain. Causes of metatarsalgia include foot anatomy, gait mechanics, and foot and ankle deformity. One specific cause, mechanical metatarsalgia, occurs because of gastrocnemius muscle contracture, which overloads the forefoot. Muscular imbalance of the gastrocnemius complex alters gait mechanics, which increases recruitment of the toe extensor musculature, thereby altering forefoot pressure. Patients with concomitant metatarsalgia and gastrocnemius contracture demonstrate ankle equinus and a positive Silfverskiold test. Nonoperative therapeutic modalities are mainstays of treatment. In patients in whom these treatments fail to provide metatarsalgia symptomatic relief, gastrocnemius muscle lengthening is a therapeutic option.