Clinical orthopaedics and related research
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Nerve injuries do occur during shoulder surgery. Studies of regional anatomy have defined the nerves at risk. The suprascapular nerve may lie no more than 1 cm from the glenoid rim. ⋯ Commonly, the nerve injuries occur secondary to traction or contusion. These are avoided best by careful attention to patient positioning, retractor placement, and arm manipulation during surgery. Because of the contemporary nature of these nerve injuries, observation is almost always the treatment of choice, with delayed electrodiagnostic testing should nerve recovery not occur within a 3 to 6-week period.
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Injury to the long thoracic nerve causing paralysis or weakness of the serratus anterior muscle can be disabling. Patients with serratus palsy may present with pain, weakness, limitation of shoulder elevation, and scapular winging with medial translation of the scapula, rotation of the inferior angle toward the midline, and prominence of the vertebral border. Long thoracic nerve dysfunction may result from trauma or may occur without injury. ⋯ Patients with severe symptoms in whom 12 months of conservative treatment has failed may benefit from surgical reconstruction. Although many surgical procedures have been described, the current preferred treatment is transfer of the sternal head of the pectoralis major tendon to the inferior angle of the scapula reinforced with fascia or tendon autograft. Many series have shown good to excellent results, with consistent improvement in function, elimination of winging, and reduction of pain.
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Axillary nerve injury remains the most common peripheral nerve injury to affect the shoulder. It most often is seen after glenohumeral joint dislocation, proximal humerus fracture, or a direct blow to the deltoid muscle. Compression neuropathy has been reported to occur in the quadrilateral space syndrome, although the true pathophysiology of this disorder remains unclear. ⋯ During the acute phase of injury, the shoulder should be rested, and when clinically indicated, a patient should undergo an extensive rehabilitation program emphasizing range of motion and strengthening of the shoulder girdle muscles. If no axillary nerve recovery is observed by 3 to 6 months after injury, surgical exploration may be indicated, especially if the mechanism of injury is consistent with nerve rupture. Patients who sustain injury to the axillary nerve have a variable prognosis for nerve recovery although return of function of the involved shoulder typically is good to excellent, depending on associated ligamentous or bony injury.
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To investigate the risk of axillary nerve injury by the proximal locking screws in antegrade nailing of humeral fractures, the anatomy of the axillary nerve was examined in 20 fresh anatomic specimen humeri, which subsequently were nailed antegrade with specially designed humeral locked nails. The axillary nerve was found to be on average 45.6 mm below the tip of the greater tuberosity; it was jeopardized by insertion of the lower proximal locking screw in one of the 20 specimens. ⋯ The humeral geometry indicated that for the best linearity in the sagittal plane, an entry portal incorporating the superior margin of the olecranon fossa would be recommended for the 14 humeri with a distal humeral offset less than 4 mm, whereas a supracondylar entry portal would be recommended for the six humeri with an offset larger than 4 mm. For best linearity in the coronal plane, the entry portal and nailing direction should be more lateral in humeri with a smaller humeral elbow angle.
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Clin. Orthop. Relat. Res. · Nov 1999
Randomized Controlled Trial Clinical TrialSerum bone markers after intramedullary fixed tibial fractures.
Serum levels of bone markers were measured prospectively for 1 year in 30 adult patients with an intramedullary fixed tibial fracture. In a double blinded design, half of the patients received low intensity ultrasound. All fractures healed, although in seven of 30 the healing was delayed more than 6 months. ⋯ Patients with delayed healing had lower levels of bone specific alkaline phosphatase between 4 and 7 weeks than did patients with normal healing, although no such differences were seen for osteocalcin. The results indicate that low intensity ultrasound might slow bone resorption, although there is no visible effect on bone formation. Patients with delayed healing had adequate bone resorption but slower early bone formation than did patients with normal healing.