Francesco Raimondi1, Javier Rodriguez Fanjul2, Salvatore Aversa3, Gaetano Chirico3, Nadya Yousef4, Daniele De Luca4, Iuri Corsini5, Carlo Dani5, Lidia Grappone6, Luigi Orfeo6, Fiorella Migliaro7, Gianfranco Vallone8, Letizia Capasso7. 1. Division of Neonatology, Department of Translational Medical Sciences, Università "Federico II" di Napoli, Naples, Italy. Electronic address: raimondi@unina.it. 2. Division of Neonatology, Hospital San Joan de Deú, Barcelona, Spain. 3. Division of Neonatology, Ospedali Civili, Brescia, Italy. 4. Division of Pediatrics and Neonatal Critical Care, South Paris University Hospitals-APHP, Paris, France. 5. Division of Neonatology, Ospedale Careggi, University of Florence, Florence, Italy. 6. Division of Neonatology, Ospedale Rummo, Benevento, Italy. 7. Division of Neonatology, Department of Translational Medical Sciences, Università "Federico II" di Napoli, Naples, Italy. 8. Division of Pediatric Diagnostics, Department of Biomorphological and Functional Sciences, Università "Federico II," Naples, Italy.
Abstract
OBJECTIVES: To evaluate the accuracy of lung ultrasound for the diagnosis of pneumothorax in the sudden decompensating patient. STUDY DESIGN: In an international, prospective study, sudden decompensation was defined as a prolonged significant desaturation (oxygen saturation <65% for more than 40 seconds) and bradycardia or sudden increase of oxygen requirement by at least 50% in less than 10 minutes with a final fraction of inspired oxygen ≥0.7 to keep stable saturations. All eligible patients had an ultrasound scan before undergoing a chest radiograph, which was the reference standard. RESULTS: Forty-two infants (birth weight = 1531 ± 812 g; gestational age = 31 ± 3.5 weeks) were enrolled in 6 centers; pneumothorax was detected in 26 (62%). Lung ultrasound accuracy in diagnosing pneumothorax was as follows: sensitivity 100%, specificity 100%, positive predictive value 100%, and negative predictive value 100%. Clinical evaluation of pneumothorax showed sensitivity 84%, specificity 56%, positive predictive value 76%, and negative predictive value 69%. After sudden decompensation, a lung ultrasound scan was performed in an average time of 5.3 ± 5.6 minutes vs 19 ± 11.7 minutes required for a chest radiography. Emergency drainage was performed after an ultrasound scan but before radiography in 9 cases. CONCLUSIONS: Lung ultrasound shows high accuracy in detecting pneumothorax in the critical infant, outperforming clinical evaluation and reducing time to imaging diagnosis and drainage.
OBJECTIVES: To evaluate the accuracy of lung ultrasound for the diagnosis of pneumothorax in the sudden decompensating patient. STUDY DESIGN: In an international, prospective study, sudden decompensation was defined as a prolonged significant desaturation (oxygen saturation <65% for more than 40 seconds) and bradycardia or sudden increase of oxygen requirement by at least 50% in less than 10 minutes with a final fraction of inspired oxygen ≥0.7 to keep stable saturations. All eligible patients had an ultrasound scan before undergoing a chest radiograph, which was the reference standard. RESULTS: Forty-two infants (birth weight = 1531 ± 812 g; gestational age = 31 ± 3.5 weeks) were enrolled in 6 centers; pneumothorax was detected in 26 (62%). Lung ultrasound accuracy in diagnosing pneumothorax was as follows: sensitivity 100%, specificity 100%, positive predictive value 100%, and negative predictive value 100%. Clinical evaluation of pneumothorax showed sensitivity 84%, specificity 56%, positive predictive value 76%, and negative predictive value 69%. After sudden decompensation, a lung ultrasound scan was performed in an average time of 5.3 ± 5.6 minutes vs 19 ± 11.7 minutes required for a chest radiography. Emergency drainage was performed after an ultrasound scan but before radiography in 9 cases. CONCLUSIONS: Lung ultrasound shows high accuracy in detecting pneumothorax in the critical infant, outperforming clinical evaluation and reducing time to imaging diagnosis and drainage.
Authors: Jennifer R Marin; Alyssa M Abo; Alexander C Arroyo; Stephanie J Doniger; Jason W Fischer; Rachel Rempell; Brandi Gary; James F Holmes; David O Kessler; Samuel H F Lam; Marla C Levine; Jason A Levy; Alice Murray; Lorraine Ng; Vicki E Noble; Daniela Ramirez-Schrempp; David C Riley; Turandot Saul; Vaishali Shah; Adam B Sivitz; Ee Tein Tay; David Teng; Lindsey Chaudoin; James W Tsung; Rebecca L Vieira; Yaffa M Vitberg; Resa E Lewiss Journal: Crit Ultrasound J Date: 2016-11-03