Lung Ultrasound for Cardiogenic Shock in VA-ECMO

Lung Ultrasound for Cardiogenic Shock in VA-ECMO

G Model REC-3440; No. of Pages 1 Rev Esp Cardiol. 2017;xx(x):xxx–xxx Image in cardiology Lung Ultrasound for Cardiogenic Shock in VA-ECMO Ecografı´...

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G Model

REC-3440; No. of Pages 1 Rev Esp Cardiol. 2017;xx(x):xxx–xxx

Image in cardiology

Lung Ultrasound for Cardiogenic Shock in VA-ECMO Ecografı´a pulmonar para el shock cardioge´nico en ECMO-VA Javier Rodrı´guez-Fanjul,a Julio Moreno Hernando,a and Joan Sa´nchez-de-Toledob,c,* a

Servicio de Neonatologı´a, BCNatal, Sant Joan de De´u-Hospital Clı´nic, Barcelona, Spain Servicio de Cardiologı´a Pedia´trica, Sant Joan de De´u-Hospital Clı´nic, Barcelona, Spain c Critical Care Medicine Department, University of Pittsburgh, Pittsburgh, Pennsylvania, United States b

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Figure 1.

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A neonate was referred with a diagnosis of refractory cardiogenic shock resulting from dilated myocardiopathy of unknown origin. Echocardiography showed dilation and severe dysfunction (left ventricular ejection fraction < 10%). Venoarterial extracorporeal membrane oxygenation (VA-ECMO) was started. Subsequent echocardiography showed persistence of dilatation of the left chambers (Figure 1A). Chest X-ray (Figure 1B) and lung ultrasound (Figure 2A) showed bilateral pulmonary edema (asterisks), indicated by the presence of B lines (hyperechogenic stripes perpendicular to the transducer and spreading from the pleural line across the screen) in the lung ultrasound (Figure 2A). Left heart decompression was performed by atrial balloon septostomy and the left atrium decreased in size (Figure 2B), with progressive recovery of ventricular function and resolution of pulmonary edema. Lung ultrasound was performed 48 hours after recovery of the pattern of normal pulmonary aeration, as indicated by chest X-ray (Figure 3A) and ultrasound, which showed the presence of A lines (hyperechogenic stripes parallel to the pleura) without the presence of B lines (arrows), a sign of normal pulmonary aeration (Figure 3B). The patient showed progressive improvement, and decannulation of ECMO was possible 7 days later. Echocardiography showed improvement in left ventricular function, with ejection fraction > 60%. This case illustrates the sensitivity and usefulness of chest ultrasound compared with chest X-ray for monitoring pulmonary edema as it reduces children’s exposure to ionizing radiation.

* Corresponding author: E-mail address: [email protected] (J. Sa´nchez-de-Toledo).

http://dx.doi.org/10.1016/j.rec.2017.07.016 C 2017 Sociedad Espan ˜ ola de Cardiologı´a. Published by Elsevier Espan ˜ a, S.L.U. All rights reserved. 1885-5857/

Please cite this article in press as: Rodrı´guez-Fanjul J, et al. Lung Ultrasound for Cardiogenic Shock in VA-ECMO. Rev Esp Cardiol. 2017. http://dx.doi.org/10.1016/j.rec.2017.07.016