RESUMEN
A woman in her mid-60s with recurrent polychondritis was admitted to our hospital due to airway stenosis secondary to an uncovered metallic stent. She underwent a bronchoscopic intervention under general anaesthesia. During the procedure, the stent fracture was cauterized using Argon Plasma Coagulation (APC) cauterisation, performed with argon flow at 1 L/min and power set at 70 W. APC cauterisation caused the stent wire to flex circularly, gradually improving the stenosis. Tracheal dilatation was then performed using an airway balloon. Following the ballooning, a thin bronchoscope was easily passed through the lower trachea, and the left and right main bronchi were observed; therefore, the procedure was completed without any complications. APC coagulation and airway ballooning are viable choices for the temporary treatment of airway stenosis due to broken metallic stents.
RESUMEN
Background Locking of the distal radioulnar joint (DRUJ) induces restriction of the active and passive motion of pronation or supination of the forearm. Diagnosis of DRUJ locking due to a triangular fibrocartilage complex (TFCC) tear is sometimes difficult. Case Description A 15-year-old female suffered from restriction of forearm supination after cast immobilization for the treatment of an elbow injury. The active and passive range of motion (ROM) of supination was 30 degrees, while the active ROM of pronation was normal. Radiographs of the elbow showed a fracture of the medial epicondyle and a fracture around the radial head. Radiographs of the wrist showed a subluxation of the ulnar head. Accurate diagnosis of supination restriction was difficult before surgery, so an operation was performed for the diagnosis and treatment. DRUJ locking was reduced manually and arthroscopic findings showed central perforation of the TFCC. Forearm supination improved to 90 degrees postoperatively. Literature Review DRUJ locking due to a TFCC injury is rare and this condition with bipolar injury has not been reported. Clinical Relevance DRUJ locking due to an injured TFCC should be considered as one of the differential diagnoses of supination contracture.
RESUMEN
BACKGROUND: Although bone defects of the humeral head and glenoid could affect glenohumeral instability, bone loss has not been sufficiently evaluated. The purpose of this study was to quantify bone defects 3-dimensionally in cases with glenohumeral instability. METHODS: Three-dimensional surface models of bilateral proximal humeri and glenoids were reconstructed from computed tomography scans of 90 patients with symptomatic, unilateral, recurrent glenohumeral instability. The left-side models were mirrored, and intact bone areas were matched to those of the right-side models. The volume, length, width, and depth of identified bone defects were assessed. After the values were corrected by patient height, the characteristics of the bone defects were evaluated. RESULTS: Bone defects were present in 97.8% of the humeral heads and 96.7% of the glenoids, and women had significantly smaller bone defects than men did. The volume of humeral head defects had a mild correlation with that of glenoid defects. The number of traumatic episodes was not correlated with humeral head bone defects, but it was positively correlated with glenoid bone defects. Patients with recurrent dislocations had significantly deeper and larger Hill-Sachs lesions than the other cases. CONCLUSION: Bone defects of the humeral head and the glenoid in cases with symptomatic traumatic glenohumeral instability were quantified 3-dimensionally using a computed tomography surface-matching technique. Almost all cases showed bone defects in the humeral head and glenoid compared with the intact shoulder, and such bone defects may be more common than previously reported. This study suggested that bipolar bone lesions are not always created by the same mechanism.