Point-of-care chest ultrasound in the Neonatal Intensive Care Unit Proceedings (original) (raw)

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Point-of-care chest ultrasound in the Neonatal Intensive Care Unit

Chest ultrasound is a useful diagnostic tool in adult emergency medicine. Echography does not generate a clear image of the lung but is able to generate artifacts that are combined in disease-specific profiles. Reflections of the pleural image appear as short straight lines also known as A-lines. Vertical, comet-tail artifacts departing from the pleura are named B-lines. The former are present in the normal lung while the latter have been described in the adult wet lung. Lung ultrasonography outperforms conventional radiology in the emergency diagnosis of pneumothorax and pleural effusions. Neonatologists and pediatricians are now adapting lung ultrasound to their specific clinical issues. The normal image is relatively unchanged throughout the age span, while progressively fading B-lines describe the fluid-to-air transition of the neonatal lung. Also, an homogeneous white (hyperechogenic) lung with pleural image abnormalities and absence of spared areas is accurate in diagnosing Re...

Point-of-Care Chest Ultrasound in the Neonatal Intensive Care Unit: An Italian Perspective

Lung ultrasound outperforms conventional radiology in the emergency diagnosis of pneumothorax and pleural effusions. Neonatologists and pedia-tricians are now adapting lung ultrasound to their specific clinical issues. The normal image is relatively unchanged throughout the age span, whereas progressively fading B-lines (comet-tail artifacts) describe the fluid-to-air transition of the neonatal lung. Also, an homogeneous white (hyperechogenic) lung with pleural image abnormalities and absence of spared areas is accurate in diagnosing respiratory distress syndrome. The evidence of bilateral confluent B-lines in the dependent areas of the lung (''white lung'') and normal or near-normal appearance of the lung in the superior fields is highly sensitive and specific for transient tachypnea of the newborn. Infantile pneumonia has recently been proved to be accurately diagnosed by ultrasound after a short training period. In summary, chest ultrasonography is not yet ready to replace conventional chest radiology. However, when appropriately applied, a lung ultrasound scan can save time and radiation exposure to achieve a critical diagnosis. Objectives After completing this article, readers should be able to: 1. Understand the propagation of ultrasound through the chest and the meaning of the main artifactual images. 2. Correlate profiles of ultrasound artifacts with specific lung diseases. 3. Appreciate the current clinical literature validating point-of-care lung ultrasound in pediatrics and neonatology.

Usefulness of lung ultrasound in the diagnosis and follow-up of respiratory diseases in neonates

Anales de Pediatría (English Edition)

Objective: Lung ultrasound is a useful tool for diagnosis and follow-up of diseases in critically ill neonates. Its use is increasingly widespread thanks to its advantages over other imaging tests and the rapidly growing body of evidence to support it, and ''point-of-care ultrasound'' (POCUS) has become a key component in neonatal guidelines. The objective of this special article is to present the foundations and the established diagnostic and therapeutic applications of lung ultrasonography as well as introducing new applications. Methods and results: The Lung Ultrasound Section of the Neonatal Ultrasonography Working Group of the Spanish Neonatology Society has summarised the current scientific evidence. The article describes the sonographic features of the most common respiratory diseases, discusses some of the applications of ultrasound in neonatal care (such as prediction of admission and need of surfactant, ultrasound-guided procedures or monitoring of lung development in premature infants) and proposes its introduction in other scenarios in which its use is not quite established at present, such as resuscitation or respiratory management. This article reaffirms the usefulness of lung ultrasound in guiding diagnosis, clinical decision-making and prognosis and facilitating procedures.

Lung Ultrasound for the Differential Diagnosis of Respiratory Distress in Neonates

Neonatology, 2018

Respiratory distress (RD) is the most common neonatal illness. Lung ultrasound (LUS) is a technique previously tested in neonatal studies on RD, but literature regarding its routine clinical applicability is still lacking. To assess the concordance between LUS performed by neonatologists with different training levels and chest X-ray (CXR) for the diagnosis of RD in newborns during the first 24 h of life. We enrolled newborns with RD during the first 24 h of life. Patients underwent LUS and CXR. LUS and CXR diagnosis were compared to evaluate concordance. Twenty percent of patients received two LUS (one from an experienced and one from a novice sonographer) to calculate the interobserver agreement. The difference in time needed to reach a diagnosis with LUS and CXR, and from novice and expert operators, was measured. We studied 124 patients; 134 diagnoses were reported. The concordance between LUS and CXR diagnosis was 91% (95% CI 86-96%) with a κ statistic of 0.88 (95% CI 0.81-0.94...

Basic notions of lung ultrasound in neonatology

Archivos Argentinos de Pediatria

Lung ultrasound (LU) has gained ground in the diagnosis of most respiratory conditions present since birth. It is highly sensitive to variations in air content and pulmonary fluids and functions as a true densitometer of the lung parenchyma with a sensitivity superior to that of radiological studies. A LU is a non-invasive, fast and easy tool that can be used at the patient's bedside and, unlike conventional radiology, does not pose risks of radiation. In addition, a LU provides real-time dynamic information in a variety of neonatal settings and, like heart and brain examinations, can be performed by the neonatologist. The objective of this article is to describe the main artifacts and images that can be found in the neonatal LU, as well as the different aeration patterns, and to highlight their usefulness in the study of the most frequent respiratory disorders of neonates.

Lung Ultrasound in the Critically Ill Neonate

Current Pediatric Reviews, 2012

Critical ultrasound is a new tool for first-line physicians, including neonate intensivists. The consideration of the lung as one major target allows to redefine the priorities. Simple machines work better than up-to-date ones. We use a microconvex probe. Ten standardized signs allow a majority of uses: the bat sign (pleural line), lung sliding and the A-line (normal lung surface), the quad sign and sinusoid sign indicating pleural effusion regardless its echogenicity, the tissuelike sign and fractal sign indicating lung consolidation, the B-line artifact and lung rockets (indicating interstitial syndrome), abolished lung sliding with the stratosphere sign, suggesting pneumothorax, and the lung point, indicating pneumothorax. Other signs are used for more sophisticated applications (distinguishing atelectasis from pneumonia for instance...). All these disorders were assessed in the adult using CT as gold standard with sensitivity and specificity ranging from 90 to 100%, allowing to consider ultrasound as a reasonable bedside gold standard in the critically ill. The same signs are found, with no difference in the critically ill neonate. Fast protocols such as the BLUE-protocol are available, allowing immediate diagnosis of acute respiratory failure using seven standardized profiles. Pulmonary edema e.g. yields anterior lung rockets associated with lung sliding, making the B-profile. The FALLS-protocol, inserted in a Limited Investigation including a simple model of heart and vessels, assesses acute circulatory failure using lung artifacts. Interventional ultrasound (mainly, thoracocenthesis) provides maximal safety. Referrals to CT can be postponed. CEURF proposes personnalized bedside trainings since 1990. Lung ultrasound opens physicians to a visual medicine.

Point-of-care lung ultrasound in paediatric critical and emergency care

Journal of Paediatrics and Child Health, 2018

Ultrasound techniques have been developed since the past century and are becoming more useful in different areas of medical knowledge. More recently, lung ultrasound gained importance throughout artefacts analysis to help clinical evaluation at bedside and became subject of interest in the paediatric intensive care and emergency department settings for both procedural and diagnostic purposes. The normal pattern of lung ultrasound is defined by the presence of lung sliding associated with A-lines whereas B-lines may be representative of pathologic findings. This review focuses on some of the most common pulmonary conditions, their respective sonographic features and clinical implications in the emergency department and paediatric intensive care unit.

Thoracic ultrasound accuracy for the investigation of initial neonatal respiratory distress

Archives de Pédiatrie, 2019

Thoracic ultrasound (TUS) is increasingly studied in neonatal respiratory distress but chest x-ray (CXR) remains the first-line exam. We aimed to evaluate its diagnostic performance for the investigation of unselected causes of neonatal respiratory distress in daily practice. We conducted a descriptive, prospective, and single-center diagnostic accuracy study in a tertiary hospital, including term and preterm newborns who needed a CXR because of respiratory conditions occurring at birth or during the first 24 h of life. TUS was compared to the reference diagnosis, which was the association between the CXR results, the clinical initial context, and the patient's outcome. Fifty-two newborns were included and 104 hemi-thorax ultrasounds were analyzed. Sensitivity, specificity, positive and negative predictive values (PPV, NPV), diagnosis accuracy, as well as the positive and negative likelihood ratio of TUSs were 100% for respiratory distress syndrome (RDS), transient tachypnea of newborn (TTN), pneumomediastinum, meconium aspiration syndrome, and absence of pulmonary disease. TUS also showed 100% sensitivity and NPV for pneumothorax, but specificity was 97% and PPV was 50%. Kappa concordance between TUS and either CXR alone or the radiological/clinical gold standard was 0.79 and 0.95, respectively. Conclusion: TUS at the newborn's bedside is efficient for investigating the main neonatal respiratory diseases, especially for the confirmation of RDS or TTN and for the exclusion of differential diagnosis or complications.

Lung Ultrasound: Its Findings and New Applications in Neonatology and Pediatric Diseases

Diagnostics, 2021

Lung ultrasound has become increasingly used in both adult and pediatric populations, allowing the rapid evaluation of many lung and pleura diseases. This popularity is due to several advantages of the method such as the low cost, rapidity, lack of ionizing radiation, availability of bedside and repeatability of the method. These features are even more important after the outbreak of the SARS-CoV-2 pandemic, given the possibility of recognizing through ultrasound the signs of interstitial lung syndrome typical of pneumonia caused by the virus. The purpose of this paper is to review the available evidence of lung ultrasound (LUS) in children and its main applications in pediatric diseases.