Your search keyword '"Tannoia, Angela"' showing total 13 results

1. Dynamic Mechanical Interactions Between Neighboring Airspaces Determine Cyclic Opening and Closure in Injured Lung

Author

Broche, Ludovic, Perchiazzi, Gaetano, Porra, Liisa, Tannoia, Angela, Pellegrini, Mariangela, Derosa, Savino, Sindaco, Alessandra, Borges, João Batista, Degrugilliers, Loïc, Larsson, Anders, Hedenstierna, Göran, Wexler, Anthony S, Bravin, Alberto, Verbanck, Sylvia, Smith, Bradford J, Bates, Jason HT, and Bayat, Sam

Subjects

Biomedical and Clinical Sciences, Nursing, Clinical Sciences, Health Sciences, Lung, Bioengineering, Acute Lung Injury, Animals, Computer Simulation, Male, Positive-Pressure Respiration, Pressure, Pulmonary Alveoli, Rabbits, Synchrotrons, acute respiratory distress syndrome, assisted ventilation, imaging/computed tomography, pulmonary oedema, synchrotron, Public Health and Health Services, Emergency & Critical Care Medicine, Clinical sciences

Abstract

ObjectivesPositive pressure ventilation exposes the lung to mechanical stresses that can exacerbate injury. The exact mechanism of this pathologic process remains elusive. The goal of this study was to describe recruitment/derecruitment at acinar length scales over short-time frames and test the hypothesis that mechanical interdependence between neighboring lung units determines the spatial and temporal distributions of recruitment/derecruitment, using a computational model.DesignExperimental animal study.SettingInternational synchrotron radiation laboratory.SubjectsFour anesthetized rabbits, ventilated in pressure controlled mode.InterventionsThe lung was consecutively imaged at ~ 1.5-minute intervals using phase-contrast synchrotron imaging, at positive end-expiratory pressures of 12, 9, 6, 3, and 0 cm H2O before and after lavage and mechanical ventilation induced injury. The extent and spatial distribution of recruitment/derecruitment was analyzed by subtracting subsequent images. In a realistic lung structure, we implemented a mechanistic model in which each unit has individual pressures and speeds of opening and closing. Derecruited and recruited lung fractions (Fderecruited, Frecruited) were computed based on the comparison of the aerated volumes at successive time points.Measurements and main resultsAlternative recruitment/derecruitment occurred in neighboring alveoli over short-time scales in all tested positive end-expiratory pressure levels and despite stable pressure controlled mode. The computational model reproduced this behavior only when parenchymal interdependence between neighboring acini was accounted for. Simulations closely mimicked the experimental magnitude of Fderecruited and Frecruited when mechanical interdependence was included, while its exclusion gave Frecruited values of zero at positive end-expiratory pressure greater than or equal to 3 cm H2O.ConclusionsThese findings give further insight into the microscopic behavior of the injured lung and provide a means of testing protective-ventilation strategies to prevent recruitment/derecruitment and subsequent lung damage.

Published

2017

2. The Effect of Positive End-Expiratory Pressure on Lung Micromechanics Assessed by Synchrotron Radiation Computed Tomography in an Animal Model of ARDS

Author

Scaramuzzo, Gaetano, Broche, Ludovic, Pellegrini, Mariangela, Porra, Liisa, Derosa, Savino, Tannoia, Angela Principia, Marzullo, Andrea, Borges, Joao Batista, Bayat, Sam, Bravin, Alberto, Larsson, Anders, Perchiazzi, Gaetano, Scaramuzzo, Gaetano, Broche, Ludovic, Pellegrini, Mariangela, Porra, Liisa, Derosa, Savino, Tannoia, Angela Principia, Marzullo, Andrea, Borges, Joao Batista, Bayat, Sam, Bravin, Alberto, Larsson, Anders, and Perchiazzi, Gaetano

Abstract

Modern ventilatory strategies are based on the assumption that lung terminal airspaces act as isotropic balloons that progressively accommodate gas. Phase contrast synchrotron radiation computed tomography (PCSRCT) has recently challenged this concept, showing that in healthy lungs, deflation mechanisms are based on the sequential de-recruitment of airspaces. Using PCSRCT scans in an animal model of acute respiratory distress syndrome (ARDS), this study examined whether the numerosity (ASnum) and dimension (ASdim) of lung airspaces change during a deflation maneuver at decreasing levels of positive end-expiratory pressure (PEEP) at 12, 9, 6, 3, and 0 cmH(2)O. Deflation was associated with significant reduction of ASdim both in the whole lung section (passing from from 13.1 +/- 2.0 at PEEP 12 to 7.6 +/- 4.2 voxels at PEEP 0) and in single concentric regions of interest (ROIs). However, the regression between applied PEEP and ASnum was significant in the whole slice (ranging from 188 +/- 52 at PEEP 12 to 146.4 +/- 96.7 at PEEP 0) but not in the single ROIs. This mechanism of deflation in which reduction of ASdim is predominant, differs from the one observed in healthy conditions, suggesting that the peculiar alveolar micromechanics of ARDS might play a role in the deflation process.

Published

2019

3. Regional Behavior of Airspaces During Positive Pressure Reduction Assessed by Synchrotron Radiation Computed Tomography

Author

Scaramuzzo, Gaetano, Broche, Ludovic, Pellegrini, Mariangela, Porra, Liisa, Derosa, Savino, Tannoia, Angela Principia, Marzullo, Andrea, Batista Borges, João, Bayat, Sam, Bravin, Alberto, Larsson, Anders, Perchiazzi, Gaetano, Scaramuzzo, Gaetano, Broche, Ludovic, Pellegrini, Mariangela, Porra, Liisa, Derosa, Savino, Tannoia, Angela Principia, Marzullo, Andrea, Batista Borges, João, Bayat, Sam, Bravin, Alberto, Larsson, Anders, and Perchiazzi, Gaetano

Abstract

Introduction: The mechanisms of lung inflation and deflation are only partially known. Ventilatory strategies to support lung function rely upon the idea that lung alveoli are isotropic balloons that progressively inflate or deflate and that lung pressure/volume curves derive only by the interplay of critical opening pressures, critical closing pressures, lung history, and position of alveoli inside the lung. This notion has been recently challenged by subpleural microscopy, magnetic resonance, and computed tomography (CT). Phase-contrast synchrotron radiation CT (PC-SRCT) can yield in vivo images at resolutions higher than conventional CT. Objectives: We aimed to assess the numerosity (ASden) and the extension of the surface of airspaces (ASext) in healthy conditions at different volumes, during stepwise lung deflation, in concentric regions of the lung. Methods: The study was conducted in seven anesthetized New Zealand rabbits. They underwent PC-SRCT scans (resolution of 47.7 mu m) of the lung at five decreasing positive end expiratory pressure (PEEP) levels of 12, 9, 6, 3, and 0 cmH(2)O during end-expiratory holds. Three concentric regions of interest (ROIs) of the lung were studied: subpleural, mantellar, and core. The images were enhanced by phase contrast algorithms. ASden and ASext were computed by using the Image Processing Toolbox for MatLab. Statistical tests were used to assess any significant difference determined by PEEP or ROI on ASden and ASext. Results: When reducing PEEP, in each ROI the ASden significantly decreased. Conversely, ASext variation was not significant except for the core ROI. In the latter, the angular coefficient of the regression line was significantly low. Conclusion: The main mechanism behind the decrease in lung volume at PEEP reduction is derecruitment. In our study involving lung regions laying on isogravitational planes and thus equally influenced by gravitational forces, airspace numerosity and extension of surface depend on t

Published

2019

4. The Effect of Positive End-Expiratory Pressure on Lung Micromechanics Assessed by Synchrotron Radiation Computed Tomography in an Animal Model of ARDS

Author

Scaramuzzo, Gaetano, primary, Broche, Ludovic, additional, Pellegrini, Mariangela, additional, Porra, Liisa, additional, Derosa, Savino, additional, Tannoia, Angela Principia, additional, Marzullo, Andrea, additional, Borges, João Batista, additional, Bayat, Sam, additional, Bravin, Alberto, additional, Larsson, Anders, additional, and Perchiazzi, Gaetano, additional

Published

2019

5. Regional Behavior of Airspaces During Positive Pressure Reduction Assessed by Synchrotron Radiation Computed Tomography

Author

Scaramuzzo, Gaetano, primary, Broche, Ludovic, additional, Pellegrini, Mariangela, additional, Porra, Liisa, additional, Derosa, Savino, additional, Tannoia, Angela Principia, additional, Marzullo, Andrea, additional, Borges, Joao Batista, additional, Bayat, Sam, additional, Bravin, Alberto, additional, Larsson, Anders, additional, and Perchiazzi, Gaetano, additional

Published

2019

6. Dynamic Mechanical Interactions between Neighboring Airspaces Determine Cyclic Opening and Closure in Injured Lung

Author

Broche, L, Perchiazzi, G, Porra, L, Tannoia, A, Pellegrini, M, Derosa, S, Sindaco, A, Borges Joao, B, Degrugilliers, L, Larsson, A, Hedenstierna, G, Wexler Anthony, S, Bravin, A, Verbanck, S, Smith Bradford, J, Bates Jason, H, Bayat, S, Broche Ludovic, Perchiazzi Gaetano, Porra Liisa, Tannoia Angela, Pellegrini Mariangela, Derosa Savino, Sindaco Alessandra, Borges Joao Batista, Degrugilliers Loic, Larsson Anders, Hedenstierna Goran, Wexler Anthony S., Bravin A, Verbanck Sylvia, Smith Bradford J, Bates Jason HT, Bayat Sam, Broche, L, Perchiazzi, G, Porra, L, Tannoia, A, Pellegrini, M, Derosa, S, Sindaco, A, Borges Joao, B, Degrugilliers, L, Larsson, A, Hedenstierna, G, Wexler Anthony, S, Bravin, A, Verbanck, S, Smith Bradford, J, Bates Jason, H, Bayat, S, Broche Ludovic, Perchiazzi Gaetano, Porra Liisa, Tannoia Angela, Pellegrini Mariangela, Derosa Savino, Sindaco Alessandra, Borges Joao Batista, Degrugilliers Loic, Larsson Anders, Hedenstierna Goran, Wexler Anthony S., Bravin A, Verbanck Sylvia, Smith Bradford J, Bates Jason HT, and Bayat Sam

Abstract

Objectives: Positive pressure ventilation exposes the lung to mechanical stresses that can exacerbate injury. The exact mechanism of this pathologic process remains elusive. The goal of this study was to describe recruitment/derecruitment at acinar length scales over short-time frames and test the hypothesis that mechanical interdependence between neighboring lung units determines the spatial and temporal distributions of recruitment/derecruitment, using a computational model. Design: Experimental animal study. Setting: International synchrotron radiation laboratory. Subjects: Four anesthetized rabbits, ventilated in pressure controlled mode. Interventions: The lung was consecutively imaged at ∼ 1.5-minute intervals using phase-contrast synchrotron imaging, at positive end-expiratory pressures of 12, 9, 6, 3, and 0 cm H2O before and after lavage and mechanical ventilation induced injury. The extent and spatial distribution of recruitment/derecruitment was analyzed by subtracting subsequent images. In a realistic lung structure, we implemented a mechanistic model in which each unit has individual pressures and speeds of opening and closing. Derecruited and recruited lung fractions (Fderecruited, Frecruited) were computed based on the comparison of the aerated volumes at successive time points. Measurements and Main Results: Alternative recruitment/derecruitment occurred in neighboring alveoli over short-time scales in all tested positive end-expiratory pressure levels and despite stable pressure controlled mode. The computational model reproduced this behavior only when parenchymal interdependence between neighboring acini was accounted for. Simulations closely mimicked the experimental magnitude of Fderecruited and Frecruited when mechanical interdependence was included, while its exclusion gave Frecruited values of zero at positive end-expiratory pressure greater than or equal to 3 cm H2O. Conclusions: These findings give further insight into the microscopic behavi

Published

2017

7. Small airway closure studied in vivo by synchrotron CT imaging in injured lung

Author

Broche, Ludovic, primary, Pisa, Pauline, additional, Fardin, Luca, additional, Perchiazzi, Gaetano, additional, Porra, Liisa, additional, Tannoia, Angela, additional, Pelligrini, Mariangela, additional, Derosa, Savino, additional, Sindaco, Alessandra, additional, Hedenstierna, Göran, additional, Larsson, Anders, additional, Bayat, Sam, additional, and Borges, João Batista, additional

Published

2017

8. Effects of superimposed tissue weight on regional compliance of injured lungs

Author

Pellegrini, Mariangela, Derosa, Savino, Tannoia, Angela, Rylander, Christian, Fiore, Tommaso, Larsson, Anders, Hedenstierna, Göran, Perchiazzi, Gaetano, Pellegrini, Mariangela, Derosa, Savino, Tannoia, Angela, Rylander, Christian, Fiore, Tommaso, Larsson, Anders, Hedenstierna, Göran, and Perchiazzi, Gaetano

Abstract

Computed tomography (CT), together with image analysis technologies, enable the construction of regional volume (V-REG) and local transpulmonary pressure (P-TP,P-REG) maps of the lung. Purpose of this study is to assess the distribution of V-REG vs P-TP,P-REG along the gravitational axis in healthy (HL) and experimental acute lung injury conditions (eALI) at various positive end-expiratory pressures (PEEPS) and inflation volumes. Mechanically ventilated pigs underwent inspiratory hold maneuvers at increasing volumes simultaneously with lung CT scans. eALI was induced via the iv administration of oleic acid. We computed voxel-level V-REG vs P-TP,P-REG curves into eleven isogravitational planes by applying polynomial regressions. Via F-test, we determined that V-REG vs P-TP,P-REG curves derived from different anatomical planes (p-values < 1.4E-3), exposed to different PEEPs (p-values < 1.5E-5) or subtending different lung status (p-values < 3E-3) were statistically different (except for two cases of adjacent planes). Lung parenchyma exhibits different elastic behaviors based on its position and the density of superimposed tissue which can increase during lung injury.

Published

2016

9. Effects of superimposed tissue weight on regional compliance of injured lungs

Author

Pellegrini, Mariangela, primary, Derosa, Savino, additional, Tannoia, Angela, additional, Rylander, Christian, additional, Fiore, Tommaso, additional, Larsson, Anders, additional, Hedenstierna, Göran, additional, and Perchiazzi, Gaetano, additional

Published

2016

10. Regional distribution of lung compliance by image analysis of computed tomograms

Author

Perchiazzi, Gaetano, Rylander, Christian, Derosa, Savino, Pellegrini, Mariangela, Pitagora, Loredana, Polieri, Debora, Vena, Antonio, Tannoia, Angela, Fiore, Tommaso, Hedenstierna, Göran, Perchiazzi, Gaetano, Rylander, Christian, Derosa, Savino, Pellegrini, Mariangela, Pitagora, Loredana, Polieri, Debora, Vena, Antonio, Tannoia, Angela, Fiore, Tommaso, and Hedenstierna, Göran

Abstract

Computed tomography (CT) can yield quantitative information about volume distribution in the lung. By combining information provided by CT and respiratory mechanics, this study aims at quantifying regional lung compliance (CL) and its distribution and homogeneity in mechanically ventilated pigs. The animals underwent inspiratory hold maneuvers at 12 lung volumes with simultaneous CT exposure at two end-expiratory pressure levels and before and after acute lung injury (ALI) by oleic acid administration. CL and the sum of positive voxel compliances from CT were linearly correlated; negative compliance areas were found. A remarkably heterogeneous distribution of voxel compliance was found in the injured lungs. As the lung inflation increased, the homogeneity increased in healthy lungs but decreased in injured lungs. Image analysis brought novel findings regarding spatial homogeneity of compliance, which increases in ALI but not in healthy lungs by applying PEEP after a recruitment maneuver.

Published

2014

11. Regional distribution of lung compliance by image analysis of computed tomograms

Author

Perchiazzi, Gaetano, primary, Rylander, Christian, additional, Derosa, Savino, additional, Pellegrini, Mariangela, additional, Pitagora, Loredana, additional, Polieri, Debora, additional, Vena, Antonio, additional, Tannoia, Angela, additional, Fiore, Tommaso, additional, and Hedenstierna, Göran, additional

Published

2014

12. Reabsorption atelectasis in a porcine model of ARDS : regional and temporal effects of airway closure, oxygen, and distending pressure

Author

Derosa, Savino, Borges, João Batista, Segelsjö, Monica, Tannoia, Angela, Pellegrini, Mariangela, Larsson, Anders, Perchiazzi, Gaetano, Hedenstierna, Göran, Derosa, Savino, Borges, João Batista, Segelsjö, Monica, Tannoia, Angela, Pellegrini, Mariangela, Larsson, Anders, Perchiazzi, Gaetano, and Hedenstierna, Göran

Abstract

Little is known about the small airways dysfunction in acute respiratory distress syndrome (ARDS). By computed tomography (CT) imaging in a porcine experimental model of early ARDS, we aimed at studying the location and magnitude of peripheral airway closure and alveolar collapse under high and low distending pressures and high and low inspiratory oxygen fraction (FIO2). Six piglets were mechanically ventilated under anesthesia and muscle relaxation. Four animals underwent saline-washout lung injury, and two served as healthy controls. Beyond the site of assumed airway closure, gas was expected to be trapped in the injured lungs, promoting alveolar collapse. This was tested by ventilation with an FIO2 of 0.25 and 1 in sequence during low and high distending pressures. In the most dependent regions, the gas/tissue ratio of end-expiratory CT, after previous ventilation with FIO2 0.25 low-driving pressure, was significantly higher than after ventilation with FIO2 1; with high-driving pressure, this difference disappeared. Also, significant reduction in poorly aerated tissue and a correlated increase in nonaerated tissue in end-expiratory CT with FIO2 1 low-driving pressure were seen. When high-driving pressure was applied or after previous ventilation with FIO2 0.25 and low-driving pressure, this pattern disappeared. The findings suggest that low distending pressures produce widespread dependent airway closure and with high FIO2, subsequent absorption atelectasis. Low FIO2 prevented alveolar collapse during the study period because of slow absorption of gas behind closed airways.

Published

2013

13. Reabsorption atelectasis in a porcine model of ARDS: regional and temporal effects of airway closure, oxygen, and distending pressure

Author

Derosa, Savino, primary, Borges, João Batista, additional, Segelsjö, Monica, additional, Tannoia, Angela, additional, Pellegrini, Mariangela, additional, Larsson, Anders, additional, Perchiazzi, Gaetano, additional, and Hedenstierna, Göran, additional

Published

2013