Contrast-enhanced ultrasound does not discriminate between community acquired pneumonia and lung cancer (original) (raw)
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Lung Ultrasound in the Diagnosis and Follow-up of Community-Acquired Pneumonia
CHEST Journal, 2012
The aim of this prospective, multicenter study was to defi ne the accuracy of lung ultrasound (LUS) in the diagnosis of community-acquired pneumonia (CAP). Methods: Three hundred sixty-two patients with suspected CAP were enrolled in 14 European centers. At baseline, history, clinical examination, laboratory testing, and LUS were performed as well as the reference test, which was a radiograph in two planes or a low-dose CT scan in case of inconclusive or negative radiographic but positive LUS fi ndings. In patients with CAP, follow-up between days 5 and 8 and 13 and 16 was scheduled.
Scientific Reports, 2021
To assess the usefulness of lung ultrasound (LUS) for identifying community-acquired pneumonia (CAP) among adult patients with suspected lower respiratory tract infection (LRTI) and for discriminating between CAP with different cultural statuses, etiologies, and outcomes. LUS was performed at internal medicine ward admission. The performance of chest X-ray (CXR) and LUS in diagnosing CAP in 410 patients with suspected LRTI was determined. All possible positive results for pneumonia on LUS were condensed into pattern 1 (consolidation + / − alveolar-interstitial syndrome) and pattern 2 (alveolar-interstitial syndrome). The performance of LUS in predicting culture-positive status, bacterial etiology, and adverse outcomes of CAP was assessed in 315 patients. The area under the receiver operating characteristic curve for diagnosing CAP by LUS was significantly higher than for diagnosis CAP by CXR (0.93 and 0.71, respectively; p < 0.001). Pattern 1 predicted CAP with bacterial and mixe...
Lung ultrasound characteristics of community-acquired pneumonia in hospitalized children
Pediatric Pulmonology, 2013
Background: The diagnosis of community-acquired pneumonia (CAP) is based mainly on the patient's medical history and physical examination. However, in severe cases a further evaluation including chest X-ray (CXR) may be necessary. At present, lung ultrasound (LUS) is not included in the diagnostic work-up of pneumonia. Aim: To describe the ultrasonographic appearance of CAP at presentation and during the follow-up. Methods: A total of 102 patients with clinical signs and symptoms suggesting pneumonia, who underwent a clinically driven CXR, were evaluated by LUS on the same day. LUS signs of pneumonia included subpleural lung consolidation, B-lines, pleural line abnormalities, and pleural effusion. The diagnostic gold standard was the ex-post diagnosis of pneumonia made by two independent experienced pediatricians on the basis of clinical presentation, CXR and clinical course following British Thoracic Guidelines recommendations. Results: A final diagnosis of pneumonia was confirmed in 89/102 patients. LUS was positive for the diagnosis of pneumonia in 88/89 patients, whereas CXR was positive in 81/89. Only one patient with normal LUS examination had an abnormal CXR, whereas 8 patients with normal CXR had an abnormal LUS. LUS was able to detect pleural effusion resulting from complicated pneumonia in 16 cases, whereas CXR detected pleural effusion in 3 cases. Conclusions: LUS is a simple and reliable imaging tool, not inferior to CXR in identifying pleuro-pulmonary alterations in children with suspected pneumonia. During the course of the disease, LUS allows a radiation-free follow-up of these abnormalities.
Infectious Pneumonia and Lung Ultrasound: A Review
Journal of Clinical Medicine
The application of thoracic ultrasound examination has not long been developed because ultrasound’s interaction with the lung does not generate an anatomical image but an artifactual one. Subsequently, the evaluation of pulmonary artifacts and their correlation to specific diseases allowed the development of ultrasound semantics. Currently, pneumonia still represents one of the main causes of hospitalization and mortality. Several studies in the literature have demonstrated the ultrasound features of pneumonia. Although ultrasound cannot be considered the diagnostic gold standard for the study of all lung diseases, it has experienced an extraordinary development and growth of interest due to the SARS-CoV-2 pandemic. This review aims to provide essential information on the application of lung ultrasound to the study of infectious pneumonia and to discuss the differential diagnosis.
BioMed Research International, 2015
Background and Objective. Chest X-ray is recommended for routine use in patients with suspected pneumonia, but its use in emergency settings is limited. In this study, the diagnostic performance of a new method for quantitative analysis of lung ultrasonography was compared with bedside chest X-ray and visual lung ultrasonography for detection of community-acquired pneumonia, using thoracic computed tomography as a gold standard. Methods. Thirty-two spontaneously breathing patients with suspected community-acquired pneumonia, undergoing computed tomography examination, were consecutively enrolled. Each hemithorax was evaluated for the presence or absence of abnormalities by chest X-ray and quantitative or visual ultrasonography. Results. Quantitative ultrasonography showed higher sensitivity (93%), specificity (95%), and diagnostic accuracy (94%) than chest X-ray (64%, 80%, and 69%, resp.), visual ultrasonography (68%, 95%, and 77%, resp.), or their combination (77%, 75%, and 77%, resp.). Conclusions. Quantitative lung ultrasonography was considerably more accurate than either chest X-ray or visual ultrasonography in the diagnosis of community-acquired pneumonia and it may represent a useful first-line approach for confirmation of clinical diagnosis in emergency settings.
Lung ultrasound for diagnosis of pneumonia in emergency department
Internal and Emergency Medicine, 2015
Lung ultrasound (LUS) in the emergency department (ED) has shown a significant role in the diagnostic workup of pulmonary edema, pneumothorax and pleural effusions. The aim of this study is to assess the reliability of LUS for the diagnosis of acute pneumonia compared to chest X-ray (CXR) study. The study was conducted from September 2013 to March 2015. 107 patients were admitted to the ED with a clinical appearance of pneumonia. All the patients underwent a CXR study, read by a radiologist, and an LUS, performed by a trained ED physician on duty. Among the 105 patients, 68 were given a final diagnosis of pneumonia. We found a sensitivity of 0.985 and a specificity of 0.649 for LUS, and a sensitivity of 0.735 and specificity of 0.595 for CXR. The positive predictive value for LUS was 0.838 against 0.7 for CXR. The negative predictive value of LUS was 0.960 versus 0.550 for CXR. This study has shown sensitivity, positive predictive value and negative predictive value of LUS compared to the CXR study for the diagnosis of acute pneumonia. These results suggest the use of bedside thoracic US first-line diagnostic tool in patients with suspected pneumonia.
Lung ultrasound in the diagnosis and monitoring of community acquired pneumonia in children
Respiratory Medicine, 2015
Lung ultrasound (LUS) is as an easily accessible, radiation-free imaging technique that might be used as a diagnostic tool in community-acquired pneumonia (CAP). The aim of the study was to evaluate the usefulness and accuracy of LUS in the diagnosis and monitoring of childhood CAP. One hundred six consecutive children aged between 1 and 213 (median 52.5) months referred to the hospital with suspicion of CAP were enrolled. All patients underwent LUS on the day of admission, followed by chest radiograph (CXR). Lung ultrasound was also performed in 25 children between 5th-7th and 31 children between 10th-14th day after admission. Radiographic signs of pneumonia were demonstrated in 76 children, while lung ultrasound revealed pulmonary abnormalities consistent with pneumonia in 71 children. LUS gave false negative results in 5 patients with parahilar pulmonary infiltrates demonstrated by CXR. Almost perfect overall agreement between LUS and CXR was found in terms of pneumonia diagnosis (Cohen kappa coefficient of 0.89). The diagnostic performance of LUS in demonstration of lung involvement was as follows: sensitivity of 93.4%, specificity of 100%, positive predictive value of 100%, negative predictive value of 85.7% and accuracy of 95.3%. Our study showed that LUS is a sensitive and highly specific diagnostic method in children with CAP. Therefore, LUS may be considered as the first imaging test in children with suspicion of CAP. A diagnostic algorithm of CAP which includes LUS should be validated in prospective studies. Lung ultrasound can also be used to follow-up resolution of pneumonic lesions.
Contrast-enhanced ultrasound (CEUS) for the study of peripheral lung lesions: A preliminary study
Ultrasound in Medicine & Biology, 2006
The use of contrast-enhanced ultrasound (CEUS) for the study of peripheral lung lesions has never been systematically investigated. We evaluated the CEUS patterns of 98 peripheral lung lesions before performing US-guided fine-needle biopsies (FNB). The examinations were done with an Esaote Technos MPX scanner in the harmonic mode with a mechanical index of 0.04 or less. Contrast enhancement was achieved with a 4.8 mL bolus of SonoVue (Bracco) administered via an antecubital vein. All FNBs performed under CEUS guidance were adequate for pathologic diagnosis. Seventy-eight lesions were malignant: 33 (41.9%) were adenocarcinomas, 29 (36.5%) were squamous-cell carcinomas, 13 (17.6%) were undifferentiated large-cell carcinomas and the remaining three (4.1%) were small-cell carcinomas. All presented intralesional enhancement consistent with tumor neovascularization. In some cases, there were unenhanced areas consistent with zones of necrosis and these areas were avoided during FNB. The other 20 lesions were benign (four lipomas, two fibrous lung tumor, two noncaseous granulomas, six abscesses, one rheumatoid nodule, one histiocytosis X, one chondroid hamartoma, one sclerosing hemangioma, two sarcoid nodules) and none presented intralesional enhancement. This initial and admittedly limited experience suggests that CEUS may provide diagnostically useful information on peripheral lung lesions and increase the diagnostic yield of transthoracic FNB by reducing the risk of inadequate tissue sampling.