Emilia Urbankowska scite author profile

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.

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Necrotizing Pneumonia and Its Complications in Children

Krenke

Sanocki

Urbankowska

et al. 2014

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Necrotizing pneumonia (NP) is an emerging complication of community acquired pneumonia (CAP) in children. This study aimed at the evaluation of etiology, clinical features, treatment, and prognosis of NP. The institutional database of children with CAP treated between April 2008 and July 2013 was searched to identify children with NP. Then, data on the NP characteristics were retrospectively reviewed and analyzed. We found that NP constituted 32/882 (3.7%) of all CAPs. The median age of children with NP was 4 (range 1-10) years. The causative pathogens were identified in 12/32 children (37.5%) with Streptococcus pneumoniae being the most common (6/32). All but one patient developed complications: parapneumonic effusion (PPE), pleural empyema or bronchopleural fistula (BPF), which required prompt local treatment. The median duration of hospital stay and antibiotic treatment was 26 (IQR 21-30) and 28 (IQR 22.5-32.5) days, respectively. Despite severe course of the disease no deaths occurred. A follow-up visit after 6 months revealed that none of the patients presented with any signs and symptoms which could be related to earlier pneumonia. Chest radiographs showed complete or almost complete resolution of pulmonary and pleural lesions in all patients. We conclude that necrotizing pneumonia is a relatively rare but severe form of CAP that is almost always complicated by PPE/empyema and/or BPF. It can be successfully treated with antibiotics and pleural drainage without major surgical intervention.

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Clinical characteristics of 323 children with parapneumonic pleural effusion and pleural empyema due to community acquired pneumonia

Krenke

Urbankowska

Urbankowski

et al. 2016

Journal of Infection and Chemotherapy

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Lung ultrasound—a new diagnostic modality in persistent tachypnea of infancy

Urbankowska

Urbankowski

Drobczyński³

et al. 2020

Pediatric Pulmonology

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Lung ultrasound (LUS) has been increasingly used in diagnosing and monitoring of various pulmonary diseases in children. The aim of the current study was to evaluate its usefulness in children with persistent tachypnea of infancy (PTI). This was a controlled, prospective, cross‐sectional study that included children with PTI and healthy subjects. In patients with PTI, LUS was performed at baseline and then after 6 and 12 months of follow‐up. Baseline results of LUS were compared to (a) baseline high‐resolution computed tomography (HRCT) images, (b) LUS examinations in control group, and (c) follow‐up LUS examinations. Twenty children with PTI were enrolled. B‐lines were found in all children with PTI and in 11 (55%) control subjects (P < .001). The total number of B‐lines, the maximal number of B lines in any intercostal space, the distance between B‐lines, and pleural thickness were significantly increased in children with PTI compared to controls. An irregularity of the pleural line was found in all patients with PTI and in none of the healthy children. There were no significant changes in LUS findings in patients with PTI during the study period. The comparison of HRCT indices and LUS findings revealed significant correlations between the mean lung attenuation, skewness, kurtosis and fraction of interstitial pulmonary involvement, and the number of B‐lines as well as the pleural line thickness. LUS seems to be a promising diagnostic tool in children with PTI. Its inclusion in the diagnostic work‐up may enable to reduce the number of costly, hazardous, and ionizing radiation‐based imaging procedures.

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Is lung ultrasound useful in diagnosing and monitoring children with neuroendocrine cell hyperplasia of infancy?

Krenke

Urbankowska

Urbankowski

et al. 2017

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