OBJECTIVES: To compare lung reaeration measured by bedside chest radiography, lung computed tomography, and lung ultrasound in patients with ventilator-associated pneumonia treated by antibiotics. DESIGN: Computed tomography, chest radiography, and lung ultrasound were performed before (day 0) and 7 days following initiation of antibiotics. SETTING: A 26-bed multidisciplinary intensive care unit in La Pitié-Salpêtrière hospital (University Paris-6). PATIENTS: : Thirty critically ill patients studied over the first 10 days of developing ventilator-associated pneumonia. INTERVENTIONS: : Antibiotic administration. MEASUREMENTS AND MAIN RESULTS: Computed tomography reaeration was measured as the additional volume of gas present within both lungs following 7 days of antimicrobial therapy. Lung ultrasound of the entire chest wall was performed and four entities were defined: consolidation; multiple irregularly spaced B-lines; multiple abutting ultrasound lung "comets" issued from the pleural line or a small subpleural consolidation; normal aeration. For each of the 12 regions examined, ultrasound changes were measured between day 0 and 7 and a reaeration score was calculated. An ultrasound score >5 was associated with a computed tomography reaeration >400 mL and a successful antimicrobial therapy. An ultrasound score <-10 was associated with a loss of computed tomography aeration >400 mL and a failure of antibiotics. A highly significant correlation was found between computed tomography and ultrasound lung reaeration (Rho = 0.85, p < .0001). Chest radiography was inaccurate in predicting lung reaeration. CONCLUSIONS: Lung reaeration can be accurately estimated with bedside lung ultrasound in patients with ventilator-associated pneumonia treated by antibiotics. Lung ultrasound can also detect the failure of antibiotics to reaerate the lung.
OBJECTIVES: To compare lung reaeration measured by bedside chest radiography, lung computed tomography, and lung ultrasound in patients with ventilator-associated pneumonia treated by antibiotics. DESIGN: Computed tomography, chest radiography, and lung ultrasound were performed before (day 0) and 7 days following initiation of antibiotics. SETTING: A 26-bed multidisciplinary intensive care unit in La Pitié-Salpêtrière hospital (University Paris-6). PATIENTS: : Thirty critically illpatients studied over the first 10 days of developing ventilator-associated pneumonia. INTERVENTIONS: : Antibiotic administration. MEASUREMENTS AND MAIN RESULTS: Computed tomography reaeration was measured as the additional volume of gas present within both lungs following 7 days of antimicrobial therapy. Lung ultrasound of the entire chest wall was performed and four entities were defined: consolidation; multiple irregularly spaced B-lines; multiple abutting ultrasound lung "comets" issued from the pleural line or a small subpleural consolidation; normal aeration. For each of the 12 regions examined, ultrasound changes were measured between day 0 and 7 and a reaeration score was calculated. An ultrasound score >5 was associated with a computed tomography reaeration >400 mL and a successful antimicrobial therapy. An ultrasound score <-10 was associated with a loss of computed tomography aeration >400 mL and a failure of antibiotics. A highly significant correlation was found between computed tomography and ultrasound lung reaeration (Rho = 0.85, p < .0001). Chest radiography was inaccurate in predicting lung reaeration. CONCLUSIONS: Lung reaeration can be accurately estimated with bedside lung ultrasound in patients with ventilator-associated pneumonia treated by antibiotics. Lung ultrasound can also detect the failure of antibiotics to reaerate the lung.
Authors: Giovanni Volpicelli; Mahmoud Elbarbary; Michael Blaivas; Daniel A Lichtenstein; Gebhard Mathis; Andrew W Kirkpatrick; Lawrence Melniker; Luna Gargani; Vicki E Noble; Gabriele Via; Anthony Dean; James W Tsung; Gino Soldati; Roberto Copetti; Belaid Bouhemad; Angelika Reissig; Eustachio Agricola; Jean-Jacques Rouby; Charlotte Arbelot; Andrew Liteplo; Ashot Sargsyan; Fernando Silva; Richard Hoppmann; Raoul Breitkreutz; Armin Seibel; Luca Neri; Enrico Storti; Tomislav Petrovic Journal: Intensive Care Med Date: 2012-03-06 Impact factor: 17.440
Authors: P H Mayo; R Copetti; D Feller-Kopman; G Mathis; E Maury; S Mongodi; F Mojoli; G Volpicelli; M Zanobetti Journal: Intensive Care Med Date: 2019-08-15 Impact factor: 17.440
Authors: Bojan Rode; Marinko Vučić; Mladen Siranović; Ana Horvat; Helena Krolo; Mijo Kelečić; Aleksandar Gopčević Journal: Wien Klin Wochenschr Date: 2012-12-11 Impact factor: 1.704
Authors: Giacomo Baldi; Luna Gargani; Antonio Abramo; Luigia D'Errico; Davide Caramella; Eugenio Picano; Francesco Giunta; Francesco Forfori Journal: Intensive Care Med Date: 2012-09-28 Impact factor: 17.440
Authors: Antonio Pesenti; Guido Musch; Daniel Lichtenstein; Francesco Mojoli; Marcelo B P Amato; Gilda Cinnella; Luciano Gattinoni; Michael Quintel Journal: Intensive Care Med Date: 2016-03-31 Impact factor: 17.440