Perchiazzi et al. Intensive Care Medicine Experimental 2015, 3(Suppl 1):A567 http://www.icm-experimental.com/content/3/S1/A567

POSTER PRESENTATION Open Access

Alveolar deflation dynamics before and after lung injury assessed by synchrotron radiation computed tomography

G Perchiazzi1,2*, JB Borges2, G Hedenstierna3, L Porra4, L Broche5, M Pellegrini1,2, A Sindaco1, AP Tannoia1, S Derosa1, FFM Todisco1, G Scaramuzzo1, A Larsson2, S Bayat6

From ESICM LIVES 2015Berlin, Germany. 3-7 October 2015

Introduction

During mechanical ventilation, reduction of expiratory pressure may trigger heterogeneous processes of derecruitment, collapse and overdistension of airspaces. However the relationship of such processes with precise regional location inside the lung has not been fully studied in vivo. Synchrotron Radiation Computed Tomography (SRCT) can provide in vivo regional images of the lung at resolutions higher than conventional CT.

Objective

To evaluate regional deflation dynamics in healthy (HC) and Acute Respiratory Distress Syndrome (ARDS) conditions.

Methods

Seven New Zealand rabbits were anesthetized and mechanically ventilated with a tidal volume of 7 ml/kg and positive end-expiratory pressure (PEEP) 3 cmH2O. We studied airspaces located in three concentric regions-of-interest (ROI): subpleural (SP), peripheral (PE) and core (CO). During expiratory pauses, SRCT scans of the lung were taken at decreasing PEEP levels of 12, 9, 6, 3 and 0 cmH2O. Then, ARDS model was established by repeated lung lavages followed by ventilator-induced lung injury (by pressure-controlled ventilation with inspiratory pressure of 35 and PEEP = 0 cmH2O). SRCT scans at the same decremental PEEP levels were repeated. SRCT images with a spatial resolution of 47.6 m were enhanced by phase contrast algorithms, transformed into binary images, and divided into the above-defined ROIs. Numerosity (N),

total area (A), and Area/Numerosity ratio (A/N) indexes were computed by using the Image Processing Toolbox for MatLab (Mathworks, Natick, USA). Statistical analyses to test differences produced by PEEP and/or location were performed by Students T-test (a = 0.05).

Results

In HC, N and A decreased with decreasing PEEP, which was more evident in CO. A/N remained stable down to PEEP 9 cmH2O and then decreased with PEEP. In ARDS,

N and A decreased down to PEEP 6 cmH2O and then remained stable at subsequent lower PEEP levels. SP, PE and CO areas exhibited similar behaviors but with different magnitudes. In ARDS, between PEEP 12 and PEEP 6 cmH2O, A/N index behavior evidenced that airspaces dimensions in CO were stable, but decreased below PEEP 6 cmH2O. At each PEEP level, mean dimensions of airspaces were greater in CO than in SP regions.

Conclusions

In healthy conditions, derecruitment occurred continuously along the decremental PEEP levels. When airspaces were fully inflated, they exhibited a more stable behavior, losing less volume. Reducing PEEP from 9 to 0 cmH2O,

derecruitment was proportionally greater in the more inflated airspaces, which were predominantly located in the core regions. In ARDS, loss of gas volume between PEEP 12 and 6 cmH2O was characterized by an on-off mechanism of derecruitment, remaining stable the dimensions of the still open airspaces. This may be related to the higher critical closing pressures and lower compliance of ARDS lungs.

1Bari University, Emergency and Organ Transplant, Bari, ItalyFull list of author information is available at the end of the article

2015 Perchiazzi et al.; This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0

Web End =http://creativecommons.org/licenses/by/4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Perchiazzi et al. Intensive Care Medicine Experimental 2015, 3(Suppl 1):A567 http://www.icm-experimental.com/content/3/S1/A567

Page 2 of 2

Grants

The School of Anesthesia, Bari University; The Swedish Research Council; The Heart Lung Fund; The ESRF.

Authors details

1Bari University, Emergency and Organ Transplant, Bari, Italy. 2Uppsala University, Surgical Sciences, Uppsala, Sweden. 3Uppsala University, Medical Sciences, Uppsala, Sweden. 4University of Helsinki, Physics, Helsinki, Finland, Finland. 5European Synchrotron Radiation Facility, Grenoble, France.

6Universit de Picardie Jules Verne, Laboratoire Peritox EA-INERIS, Amiens, France.

Published: 1 October 2015

doi:10.1186/2197-425X-3-S1-A567Cite this article as: Perchiazzi et al.: Alveolar deflation dynamics before and after lung injury assessed by synchrotron radiation computed tomography. Intensive Care Medicine Experimental 2015 3(Suppl 1):A567.

Submit your manuscript to a journal and benet from:

7 Convenient online submission7 Rigorous peer review7 Immediate publication on acceptance7 Open access: articles freely available onlihttp://www.springeropen.com/

Web End =ne 7 High visibility within the eld7 Retaining the copyright to your article

Submit your next manuscript at 7 http://www.springeropen.com/

Web End =springeropen.com