In a groundbreaking advancement poised to reshape neonatal intensive care, recent research has unveiled the crucial role of lung ultrasound scores (LUS) as remarkably reliable indicators of extubation readiness among very low birth weight (VLBW) infants. This study meticulously explores how these ultrasound-derived scores perform not only in infants ventilated for short durations but also, critically, in those subjected to prolonged mechanical ventilation extending beyond 30 days—a population that faces distinct clinical challenges. The findings illuminate nuanced insights into the predictive power of LUS, particularly in relation to the administration of postnatal steroids, a commonly used intervention intended to enhance pulmonary outcomes prior to successful extubation.
Lung ultrasound as a diagnostic tool has rapidly ascended within neonatology due to its non-invasive nature, bedside applicability, and real-time lung assessment capabilities. Historically, lung ultrasound scoring systems have been validated primarily in infants ventilated for less than two weeks, where a correlation between scores and extubation readiness has been well documented. This study expands the scope of LUS application, demonstrating that higher scores—indicating more pronounced lung pathology—are consistently observed in infants who have undergone chronic ventilation for over a month. This correlation underscores the progressive pulmonary changes that accumulate with prolonged mechanical support, affirming the potential of LUS to dynamically reflect lung status irrespective of ventilation duration.
One of the most striking revelations from the research is that while LUS reliably predict extubation readiness across the entire VLBW cohort, they do not discriminate between infants who require dexamethasone treatment and those who do not. Dexamethasone, a potent corticosteroid, is often administered to promote lung maturation and facilitate extubation in chronically ventilated neonates by reducing inflammation and improving respiratory mechanics. However, the ultrasound scores of steroid-treated infants did not differ significantly from those untreated, suggesting that LUS alone may not be sufficient to guide steroid therapy decisions. This finding calls for a more nuanced integration of clinical parameters alongside imaging to tailor treatment strategies effectively.
Nevertheless, the predictive value of lung ultrasound in identifying extubation success remains robust, even within the subgroup of infants receiving postnatal steroids. This distinction is particularly important because it validates LUS as a reliable biomarker for clinicians aiming to minimize extubation failures, a scenario strongly correlated with adverse neurodevelopmental and respiratory outcomes. The ability to consistently forecast extubation success using non-invasive ultrasound mitigates the risks associated with premature extubation attempts, potentially reducing the need for reintubation and its attendant complications such as ventilator-associated pneumonia and airway trauma.
The study further delineates that chronically ventilated VLBW infants tend to exhibit elevated lung ultrasound scores when compared to their counterparts who have been mechanically assisted for shorter periods. This elevation reflects both structural and functional lung deterioration, possibly due to cumulative ventilator-induced lung injury, chronic inflammation, or arrested alveolar development—a hallmark of bronchopulmonary dysplasia (BPD). By quantifying these changes through LUS, neonatologists gain a sensitive metric to monitor disease progression and response to therapeutic interventions over time.
Technical elaboration on the ultrasound methodology employed reveals the utilization of standardized scoring systems based on lung aeration patterns, consolidation, interstitial syndrome, and pleural line abnormalities. These parameters collectively offer a comprehensive assessment of pulmonary status, distinguishing between well-aerated lungs, interstitial fluid accumulation, and alveolar collapse or consolidation. The meticulous calibration and validation of scoring criteria across diverse clinical scenarios further enhance the reproducibility and clinical applicability of lung ultrasound in neonatal intensive care units (NICUs).
The integration of lung ultrasound scoring into extubation protocols heralds a paradigm shift from reliance on traditional parameters such as blood gas analysis, respiratory mechanics, and clinical scoring systems alone. Ultrasound offers a real-time, physiologically relevant snapshot of lung function that can complement existing indicators, thus facilitating more informed and individualized extubation timing. This approach promises to reduce the incidence of extubation failure and associated morbidities, ultimately improving survival and long-term outcomes in this vulnerable population.
An unexpected dimension explored in this research is the interaction between postnatal steroid therapy and lung ultrasound parameters. Despite steroids’ potent anti-inflammatory effects and documented benefits in facilitating extubation, their impact on lung ultrasound scores appears limited when comparing treated versus untreated infants. This disconnect implies that the lung’s ultrasonographic appearance may not fully capture the biochemical and physiological improvements induced by steroids or that these improvements do not translate into significant changes in LUS. Consequently, clinical decisions regarding steroid use must balance ultrasound findings with broader clinical assessments and biomarkers.
The implications of these findings extend beyond individual patient management to encompass health policy and neonatal care protocols globally. The validation of LUS as a reproducible, predictive tool for extubation readiness—applicable across varying ventilation durations—supports broader adoption of lung ultrasound in NICUs. Training programs can incorporate lung ultrasound competence, empowering clinicians with enhanced diagnostic precision at the bedside without exposing fragile neonates to radiation associated with traditional imaging modalities like chest X-rays or CT scans.
By capturing a dynamic spectrum of lung injury and recovery, lung ultrasound scoring contributes to personalized neonatal respiratory care. It equips practitioners with vital data to fine-tune respiratory support strategies, including the judicious use of steroids, ventilator settings adjustments, and timing of extubation attempts. Reducing unnecessary exposure to prolonged ventilation or steroids can diminish the risk of bronchopulmonary dysplasia and its sequelae, long recognized as major contributors to chronic respiratory morbidity and neurodevelopmental impairments in preterm infants.
Importantly, the study emphasizes that while LUS is a powerful adjunct in extubation decision-making, it should not be viewed in isolation. Multidisciplinary evaluation remains essential, incorporating clinical respiratory assessments, hemodynamic stability, nutritional status, and neurodevelopmental considerations. This holistic approach ensures that extubation readiness is gauged with a comprehensive understanding of each infant’s unique clinical trajectory and risk profile.
In clinical practice, these findings pave the way for enhanced extubation protocols that integrate ultrasound with serial clinical evaluations. Neonatologists can use changes in lung ultrasound scores to track improvements or deterioration, tailoring interventions based on evolving lung pathology. This iterative process fosters precision medicine in neonatal respiratory support, potentially accelerating extubation timelines in stable infants and preventing premature removal of ventilatory support in those at risk of failure.
The technological evolution of ultrasound equipment, combined with advances in artificial intelligence and image analysis, promises even greater accuracy and ease of LUS interpretation in the near future. Automated scoring algorithms, pattern recognition, and predictive modeling could streamline assessments, reducing operator dependency and enhancing consistency across centers. This technological synergy has the potential to transform neonatal respiratory care, making lung ultrasound an indispensable tool in NICUs worldwide.
Reflecting on the broader clinical context, this study enriches the growing body of evidence supporting ultrasound as a versatile modality in neonatology. Beyond extubation readiness, lung ultrasound is increasingly utilized to diagnose pulmonary pathologies such as pneumothorax, pulmonary edema, and consolidation with rapid turnaround and minimal infant disturbance. Its utility in guiding therapy underscores its role in enhancing clinical outcomes and reducing the burden of invasive procedures.
In conclusion, this pivotal research elevates lung ultrasound scoring to a central role in managing extubation readiness among very low birth weight infants, including those subjected to chronic ventilation. While postnatal steroids remain a vital therapeutic option, their relationship with LUS is more complex than previously appreciated, emphasizing the need for integrated clinical judgment. As lung ultrasound continues to evolve, its incorporation into routine neonatal practice promises to refine respiratory management, improve patient outcomes, and redefine standards of care in the NICU of tomorrow.
Subject of Research: Assessment of lung ultrasound scores for predicting extubation readiness and the influence of postnatal steroids in very low birth weight infants.
Article Title: The effect of postnatal steroids on lung ultrasound scores and extubation readiness in very low birth weight infants.
Article References: Singhal, M., Feinstein, K., Schreiber, M.D. et al. The effect of postnatal steroids on lung ultrasound scores and extubation readiness in very low birth weight infants. J Perinatol (2026). https://doi.org/10.1038/s41372-025-02525-5
Image Credits: AI Generated
DOI: 10.1038/s41372-025-02525-5
Keywords: Lung ultrasound, extubation readiness, very low birth weight infants, postnatal steroids, dexamethasone, neonatal ventilation, bronchopulmonary dysplasia, neonatal intensive care, lung aeration scoring
Tags: chronic ventilation effects on lung functionextubation readiness in VLBW infantsimproving extubation success rateslung ultrasound scores in neonatologyneonatal intensive care advancementsneonatal respiratory support strategiesnon-invasive lung assessment techniquespostnatal steroids and lung healthpredictive power of lung ultrasoundprolonged mechanical ventilation challengesrespiratory outcomes in premature infantsrole of ultrasound in infant care
