The use of intramedullary helix wire for the treatment of proximal humerus fractures

OBJECTIVE: To present the functional and radiographic outcome 1 and 6 years after application of a new intramedullary fixation device for proximal humerus fractures. DESIGN: Retrospective case series. SETTING: Level II orthopaedic surgery hospital. PATIENTS: Twenty-six consecutive patients (average age 68.9 years) with 2-, 3- and 4-part fractures of the proximal humerus were operated at a single institution. Follow-up was performed after 1 year (26 patients) and 6 years (16 patients). INTERVENTION: All patients were treated with closed reduction and intramedullary helix wires. MAIN OUTCOME MEASUREMENTS: The Constant-Murley score and the University of California Los Angeles (UCLA) score. Clinical complications and radiological posttraumatic arthritis were recorded. RESULTS: The average Constant-Murley score was 70.3 (points) and 70.7 after 1 and 6 years, respectively; the average UCLA score was 27.2 and 31.5 after 1 and 6 years, respectively. Major complications were 4 revisions for 3 secondary fragment displacements and 1 nonunion with partial avascular osteonecrosis in the first postoperative year. Complications were found predominantly in 4-part fractures (3/5, 60%). There were no further complications or progressive posttraumatic arthritis up to 6 years following surgery. CONCLUSION: The helix wire is well suited for displaced or unstable 2- and 3-part proximal humerus fractures. Adequate functional outcome, a low number of implant displacements, a low number of application morbidity, and infrequent implant removals were recorded. The use of this device is not recommended for 4-part fractures

Percutaneous repair of acute achilles tendon ruptures: The maffulli procedure

The Achilles tendon (AT) is the strongest tendon in the human body, but despite its strength, is the most frequently ruptured tendon in the body. Ruptures usually occur between 2 and 6 cm of its insertion into the superior surface of the calcaneus, a relatively hypovascular area [7, 17]. The major blood supply to tendons is from the mesotendon, and the largest supply is from the anterior mesentery [2]. The tendon is at the greatest risk of rupture when it is obliquely loaded, the muscle is contracting maximally, and tendon length is short [12]. This usually occurs as a result of pushing off with the foot against resistance, and occurs most frequently in males in their fourth decade