The use of transthoracic ultrasound (US) has acquired a wide consensus among respiratory physicians during the last few years. The development of portable devices promotes patient's bedside evaluation providing rapid, real-time and low-cost diagnostic information. The different acoustic impedance between different tissues and organs produces artifacts known as A lines, B lines, sliding sign, lung point, etc. The identification of such artifacts is essential to discriminate normal pleural appearance from the presence of pleural effusion, pneumothorax, thickenings and tumors. Ultrasounds are also a valuable tool during interventional procedures, such as thoracentesis, chest tube insertion and transcutaneous biopsy. Its use is recommended before medical thoracoscopy in order to assess the best site of trocar insertion according to presence, quantity and characteristics of pleural effusion. The aim of this review is to provide practical tips on chest ultrasound in clinical and interventional respiratory practice.
Background: Dyspnea is the major symptom caused by pleural effusion. The pathophysiological pathways leading to dyspnea are poorly understood. Dysfunction of respiratory mechanics may be a factor. We aimed to study the change in diaphragmatic function following thoracentesis. Methods: Patients undergoing thoracentesis at a highly specialized pleural center, underwent ultrasound evaluation of hemidiaphragm movement, before and after thoracentesis was performed. The change was compared to the reduction of dyspnea measured at the modified Borg scale. Results: Thirty-two patients were included. Dyspnea was reduced from 5.01 [95% confidence interval (CI): 4.12-6.04] to 2.6 (95% CI: 1.87-3.4, P<0.0001). Low hemidiaphragmatic movement before thoracentesis on the side of pleural effusion was improved by 17.4 cm2 (95% CI: 13.04-21.08), equalizing movement to the side without pleural effusion. On average, 1283 mL (SD: 469) fluid was drained. Multiple linear regression analysis showed that prethoracentesis ultrasound evaluation of hemidiaphragmatic function was correlated with successful thoracentesis. Conclusion: Hemidiaphragm function is reduced on the side of pleural effusion, and thoracentesis restores function. Improvement in diaphragm movement is related to a reduction in dyspnea.
BACKGROUND:Medical thoracoscopy (MT) or pleuroscopy is a procedure performed to diagnose and treat malignant and benign pleural diseases. Totally 2752 pleuroscopies executed in 1984–2013 in our center were considered in this study.METHODS:A retrospective observational study was performed. Observational time was divided into six series of 5 years. We calculated MT diagnostic yield and analyzed trends of main diseases diagnosed along the time.RESULTS:Along the 30 years population became progressively older. Number of pleuroscopies firstly increased, then stabilized and decreased in the last 5 years. The overall diagnostic yield of MT was 71%, increasing from 57% to 79%. The diagnostic yield was significantly higher in the presence of monolateral pleural effusion. Cancer represented more than half of diagnosis; tuberculosis was the most common nonneoplastic disease. The frequency of all cancers, mesothelioma, and lung cancer increased through the time; tuberculosis first decreased and then increased. All specimens resulted appropriate during the last 25 years.CONCLUSION:MT has a great diagnostic yield that can be improved by practice, permitting to achieve a specific histological diagnosis in about 80% of patients. Our experience demonstrates that the accurate selection of the patients undergoing to MT is very important to reach these results.
Background Tuberculous pleurisy is one of the primary sites of extrapulmonary tuberculosis, but clinicians currently lack the diagnostic tools necessary for early recognition in the absence of typical signs and symptoms. With this study, we aimed to test the association between internal mammary adenopathies and tuberculous pleurisy (TP). Methods 60 patients with a post-thoracoscopic histological diagnosis of granulomatosis or acute infective pleurisy were retrospectively enrolled. All of them had chest sonography and/or CT scan data available. At least two expert chest sonography physicians re-analyzed the sonography images to look for any internal mammary adenopathy. Such findings were compared to the CT data. Results Chest sonography showed internal mammary adenopathy ipsilateral to the pleural effusion in 97 % of 29 patients who had a diagnosis of TP, and in 13 % of those with an acute infective pleurisy (p < 0.001). Receiver operator characteristic analysis revealed 97 % sensitivity and 87 % specificity for this technique in predicting TP (area under curve 0.92 ± 0.04, p < 0.001). CT detection power and node measures were significantly similar (p < 0.001). Conclusion Sonographic internal mammary node visualization ipsilateral to the pleural effusion may become a sentinel sign for TP, contributing to early diagnosis or orienting the diagnostic management towards invasive procedures in uncertain cases.
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