Journal of thoracic imaging
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Transthoracic needle biopsy (TNB) is usually avoided in the presence of pneumothorax. The authors performed computed tomography (CT)-guided transthoracic core biopsy in the presence of pneumothorax in 13 patients (4.9%) selected from 265 patients who received CT-guided TNB over 4 years. These iatrogenic pneumothoraces were induced by previous ultrasound (US)-guided TNB (n = 5), transbronchial lung biopsy (n = 4), and CT-guided biopsy (n = 4). ⋯ A successful second biopsy was performed 7 days later after full expansion of the lung. There were no complications related to the procedures. The authors' experience suggests that CT-guided transthoracic core biopsy using small-bore coaxial technique can be safely performed with high-diagnostic yield in patients with stable iatrogenic pneumothorax.
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A bronchosubcutaneous fistula is a communication between the subcutaneous tissues, the pleural cavity, and the bronchial system. It is a rare manifestation of primary pulmonary disease. The authors present a very unusual case of bronchosubcutaneous fistula that presented as subcutaneous emphysema after palliative radiation therapy for primary carcinoma of the lung.
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Talc is commonly given after drainage of the pleural space to create pleural symphysis. Recognized complications of pleural drainage followed by talc pleurodesis include reexpansion pulmonary edema, pneumonia, and adult respiratory distress syndrome. This report describes a complication of talc pleurodesis that appears not to have been appreciated previously. ⋯ The recognized complications are inadequate to account for these radiographic findings. Other interstitial diseases such as hydrostatic pulmonary edema and lymphangitic carcinomatosis also are not adequate explanations. The observed complication is most likely the result of endothelial damage leading to a capillary leak type of pulmonary edema.
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The thoracic aorta and great vessels are at risk of injury by both blunt and penetrating trauma. High-speed deceleration injury, predominately caused by motor vehicle accidents, is the primary cause of blunt traumatic aortic injury (TAI). ⋯ Radiologic imaging plays a key role in the evaluation of TAI, and this review focuses on the relative roles of chest radiography, computed tomography (CT) (particularly helical CT), and aortography in the diagnostic algorithm for TAI. Other aortic imaging methods have been used in the setting of TAI, such as transesophageal echocardiography, magnetic resonance imaging, and intravascular ultrasound; although these techniques may play a complementary role in TAI evaluation, they are unlikely to have as significant an impact on routine radiologic practice as will CT.
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Multiple imaging modalities are available for the preoperative diagnosis of diaphragmatic injury. Chest radiographs are the initial and most commonly performed imaging study to evaluate the diaphragm after trauma. When chest radiography is indeterminate, spiral computed tomography (CT) with thin sections and reformatted images is the next study of choice, particularly because most hemodynamically stable patients with blunt diaphragm injury will require an admission CT examination to evaluate the extent and anatomical sites of coexisting thoracoabdominal injuries. Magnetic resonance imaging is used to evaluate the diaphragm for patients with clinical suspicion but an indeterminate diagnosis after chest radiography and spiral CT.