Peripheral lung lesions are sometimes difficult to reach even with endobronchial ultrasound (EBUS) and insufficient material is often obtained by transbronchial forceps biopsy. Cryoprobes can be used for performing tissue biopsies. We evaluated the safety and feasibility of the cryoprobe in combination with EBUS for the diagnosis of peripheral lung lesion.Patients with peripheral lung lesions of up to 4 cm were enrolled. After identifying the lung lesion by radial EBUS, forceps biopsies and cryobiopsies were performed in a randomised order. We evaluated safety and feasibility, and compared diagnostic yield and sample size. 39 patients were randomised and the peripheral lung lesion was reached in 31. The overall diagnostic yield was 60.5% and, in the lesions reached by EBUS, it was 74.2%. In 19 cases, the diagnosis was made with forceps as well as cryobiopsy and, in four cases, only with cryobiopsy. Cryobiopsies were significantly larger than forceps biopsies (11.17 mm 2 versus 4.69 mm 2 , p,0.001). We observed one case of moderate bleeding. Transbronchial cryobiopsy with EBUS guidance is safe and useful to obtain histological samples. Larger tissue samples can be obtained by cryoprobe. @ERSpublications Transbronchial cryobiopsy with EBUS-guidance is safe and useful to obtain samples from peripheral lesions
Quantitative CT led to comparable results to Chartis for classifying LVR and is a promising tool to effectively select patients for valve-based LVR procedures.
Background: Transthoracic ultrasound (US) is an important instrument to identify pleural effusions and safely conduct invasive procedures. It also allows systematic scanning of the pleural surface, though its value remains uncertain for differentiation between malignant (MPE) and nonmalignant pleural effusion (non-MPE) in routine clinical practice. Objectives: To evaluate the utility of US features to predict malignancy in undiagnosed pleural effusions in a real-life clinical setting. Methods: The US features of 154 consecutive patients with a pleural effusion were prospectively assessed. Anonymous images were recorded by an operator blinded to the clinical and radiological results. The US findings were classified by independent reviewers and compared to the final diagnosis. Results: A total of 133 patients were included (age 67 ± 16 years; BMI 25.1 ± 4.6; 54.1% females). The final diagnosis was MPE in 66 cases and non-MPE in 67 cases. US had an overall sensitivity of 80.3%, a specificity of 83.6%, and positive and negative predictive values of 82.8 and 81.2%, respectively, for the detection of malignancy. US accuracy was 81.9%. The presence of pleural/diaphragmatic nodules, pleural/diaphragmatic thickness >10 mm, and a swirling sign was significantly different between both groups (p < 0.001). Lung air bronchogram sign and a septated US pattern were more common in non-MPE patients (p < 0.01). The existence of nodularity and the absence of air bronchograms were more likely to indicate malignancy (OR 29.0, 95% CI 7.65-110.08 and OR 10.4, 95% CI 1.65-65.752, respectively). Conclusions: In the presence of an undiagnosed pleural effusion, US morphological characteristics can aid in differentiating MPE from non-MPE. Pleural/diaphragmatic nodularity was the most relevant feature although no finding was pathognomonic of MPE.
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