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3. Sigh in patients with acute hypoxemic respiratory failure and acute respiratory distress syndrome: the PROTECTION pilot randomized clinical trial

Author

Mauri, T, Foti, G, Fornari, C, Grasselli, G, Pinciroli, R, Lovisari, F, Tubiolo, D, Volta, C, Spadaro, S, Rona, R, Rondelli, E, Navalesi, P, Garofalo, E, Knafelj, R, Gorjup, V, Colombo, R, Cortegiani, A, Zhou, J, D'Andrea, R, Calamai, I, Gonzalez, A, Roca, O, Grieco, D, Jovaisa, T, Bampalis, D, Becher, T, Battaglini, D, Ge, H, Luz, M, Constantin, J, Ranieri, M, Guerin, C, Mancebo, J, Pelosi, P, Fumagalli, R, Brochard, L, Pesenti, A, Papoff, A, Di Fenza, R, Gianni, S, Spinelli, E, Lissoni, A, Abbruzzese, C, Bronco, A, Villa, S, Russotto, V, Iachi, A, Ball, L, Patroniti, N, Spina, R, Giuntini, R, Peruzzi, S, Menga, L, Fossali, T, Castelli, A, Ottolina, D, Garcia-De-Acilu, M, Santafe, M, Schadler, D, Weiler, N, Carvajal, E, Calvo, C, Neou, E, Wang, Y, Zhou, Y, Longhini, F, Bruni, A, Leonardi, M, Gregoretti, C, Ippolito, M, Milazzo, Z, Querci, L, Ranieri, S, Insom, G, Berden, J, Noc, M, Mikuz, U, Arzenton, M, Lazzeri, M, Villa, A, Barreto, B, Rios, M, Gusmao-Flores, D, Phull, M, Barnes, T, Musarat, H, Conti, S, Mauri T., Foti G., Fornari C., Grasselli G., Pinciroli R., Lovisari F., Tubiolo D., Volta C. A., Spadaro S., Rona R., Rondelli E., Navalesi P., Garofalo E., Knafelj R., Gorjup V., Colombo R., Cortegiani A., Zhou J. -X., D'Andrea R., Calamai I., Gonzalez A. V., Roca O., Grieco D. L., Jovaisa T., Bampalis D., Becher T., Battaglini D., Ge H., Luz M., Constantin J. -M., Ranieri M., Guerin C., Mancebo J., Pelosi P., Fumagalli R., Brochard L., Pesenti A., Papoff A., Di Fenza R., Gianni S., Spinelli E., Lissoni A., Abbruzzese C., Bronco A., Villa S., Russotto V., Iachi A., Ball L., Patroniti N., Spina R., Giuntini R., Peruzzi S., Menga L. S., Fossali T., Castelli A., Ottolina D., Garcia-De-Acilu M., Santafe M., Schadler D., Weiler N., Carvajal E. R., Calvo C. P., Neou E., Wang Y. -M., Zhou Y. -M., Longhini F., Bruni A., Leonardi M., Gregoretti C., Ippolito M., Milazzo Z., Querci L., Ranieri S., Insom G., Berden J., Noc M., Mikuz U., Arzenton M., Lazzeri M., Villa A., Barreto B. B., Rios M. N. O., Gusmao-Flores D., Phull M., Barnes T., Musarat H., Conti S., Mauri, T, Foti, G, Fornari, C, Grasselli, G, Pinciroli, R, Lovisari, F, Tubiolo, D, Volta, C, Spadaro, S, Rona, R, Rondelli, E, Navalesi, P, Garofalo, E, Knafelj, R, Gorjup, V, Colombo, R, Cortegiani, A, Zhou, J, D'Andrea, R, Calamai, I, Gonzalez, A, Roca, O, Grieco, D, Jovaisa, T, Bampalis, D, Becher, T, Battaglini, D, Ge, H, Luz, M, Constantin, J, Ranieri, M, Guerin, C, Mancebo, J, Pelosi, P, Fumagalli, R, Brochard, L, Pesenti, A, Papoff, A, Di Fenza, R, Gianni, S, Spinelli, E, Lissoni, A, Abbruzzese, C, Bronco, A, Villa, S, Russotto, V, Iachi, A, Ball, L, Patroniti, N, Spina, R, Giuntini, R, Peruzzi, S, Menga, L, Fossali, T, Castelli, A, Ottolina, D, Garcia-De-Acilu, M, Santafe, M, Schadler, D, Weiler, N, Carvajal, E, Calvo, C, Neou, E, Wang, Y, Zhou, Y, Longhini, F, Bruni, A, Leonardi, M, Gregoretti, C, Ippolito, M, Milazzo, Z, Querci, L, Ranieri, S, Insom, G, Berden, J, Noc, M, Mikuz, U, Arzenton, M, Lazzeri, M, Villa, A, Barreto, B, Rios, M, Gusmao-Flores, D, Phull, M, Barnes, T, Musarat, H, Conti, S, Mauri T., Foti G., Fornari C., Grasselli G., Pinciroli R., Lovisari F., Tubiolo D., Volta C. A., Spadaro S., Rona R., Rondelli E., Navalesi P., Garofalo E., Knafelj R., Gorjup V., Colombo R., Cortegiani A., Zhou J. -X., D'Andrea R., Calamai I., Gonzalez A. V., Roca O., Grieco D. L., Jovaisa T., Bampalis D., Becher T., Battaglini D., Ge H., Luz M., Constantin J. -M., Ranieri M., Guerin C., Mancebo J., Pelosi P., Fumagalli R., Brochard L., Pesenti A., Papoff A., Di Fenza R., Gianni S., Spinelli E., Lissoni A., Abbruzzese C., Bronco A., Villa S., Russotto V., Iachi A., Ball L., Patroniti N., Spina R., Giuntini R., Peruzzi S., Menga L. S., Fossali T., Castelli A., Ottolina D., Garcia-De-Acilu M., Santafe M., Schadler D., Weiler N., Carvajal E. R., Calvo C. P., Neou E., Wang Y. -M., Zhou Y. -M., Longhini F., Bruni A., Leonardi M., Gregoretti C., Ippolito M., Milazzo Z., Querci L., Ranieri S., Insom G., Berden J., Noc M., Mikuz U., Arzenton M., Lazzeri M., Villa A., Barreto B. B., Rios M. N. O., Gusmao-Flores D., Phull M., Barnes T., Musarat H., and Conti S.

Abstract

Background: Sigh is a cyclic brief recruitment maneuver: previous physiologic studies showed that its use could be an interesting addition to pressure support ventilation to improve lung elastance, decrease regional heterogeneity, and increase release of surfactant. Research Question: Is the clinical application of sigh during pressure support ventilation (PSV) feasible? Study Design and Methods: We conducted a multicenter noninferiority randomized clinical trial on adult intubated patients with acute hypoxemic respiratory failure or ARDS undergoing PSV. Patients were randomized to the no-sigh group and treated by PSV alone, or to the sigh group, treated by PSV plus sigh (increase in airway pressure to 30 cm H2O for 3 s once per minute) until day 28 or death or successful spontaneous breathing trial. The primary end point of the study was feasibility, assessed as noninferiority (5% tolerance) in the proportion of patients failing assisted ventilation. Secondary outcomes included safety, physiologic parameters in the first week from randomization, 28-day mortality, and ventilator-free days. Results: Two-hundred and fifty-eight patients (31% women; median age, 65 [54-75] years) were enrolled. In the sigh group, 23% of patients failed to remain on assisted ventilation vs 30% in the no-sigh group (absolute difference, –7%; 95% CI, –18% to 4%; P =. 015 for noninferiority). Adverse events occurred in 12% vs 13% in the sigh vs no-sigh group (P =. 852). Oxygenation was improved whereas tidal volume, respiratory rate, and corrected minute ventilation were lower over the first 7 days from randomization in the sigh vs no-sigh group. There was no significant difference in terms of mortality (16% vs 21%; P =. 337) and ventilator-free days (22 [7-26] vs 22 [3-25] days; P =. 300) for the sigh vs no-sigh group. Interpretation: Among hypoxemic intubated ICU patients, application of sigh was feasible and without increased risk.

Published
2021

4. Dynamic bedside assessment of the physiologic effects of prone position in acute respiratory distress syndrome patients by electrical impedance tomography

Author

Dalla Corte, F, Mauri, T, Spinelli, E, Lazzeri, M, Turrini, C, Albanese, M, Abbruzzese, C, Lissoni, A, Galazzi, A, Eronia, N, Bronco, A, Maffezzini, E, Pesenti, A, Foti, G, Bellani, G, Grasselli, G, Dalla Corte F., Mauri T., Spinelli E., Lazzeri M., Turrini C., Albanese M., Abbruzzese C., Lissoni A., Galazzi A., Eronia N., Bronco A., Maffezzini E., Pesenti A., Foti G., Bellani G., Grasselli G., Dalla Corte, F, Mauri, T, Spinelli, E, Lazzeri, M, Turrini, C, Albanese, M, Abbruzzese, C, Lissoni, A, Galazzi, A, Eronia, N, Bronco, A, Maffezzini, E, Pesenti, A, Foti, G, Bellani, G, Grasselli, G, Dalla Corte F., Mauri T., Spinelli E., Lazzeri M., Turrini C., Albanese M., Abbruzzese C., Lissoni A., Galazzi A., Eronia N., Bronco A., Maffezzini E., Pesenti A., Foti G., Bellani G., and Grasselli G.

Abstract

BACKGROUND: Prone position (PP) improves acute respiratory distress syndrome (ARDS) survival by reducing the risk of ventilation-induced lung injury. However, inter-individual variability is a hallmark of ARDS and lung protection by PP might not be optimal in all patients. In the present study, we dynamically assessed physiologic effects of PP by electrical impedance tomography (EIT) and identified predictors of improved lung protection by PP in ARDS patients. METHODS: Prospective physiologic study on 16 intubated, sedated and paralyzed patients with ARDS undergoing PP as per clinical decision. EIT data were recorded during two consecutive steps: 1) baseline supine position before and after a recruitment maneuver (RM); 2) prone position before and after a RM. “Improved lung protection” by PP was defined in the presence of simultaneous improvement of ventilation homogeneity (Hom), alveolar overdistension and collapse (ODCL) and amount of recruitable lung volume by RM in comparison to supine. RESULTS: PP versus supine increased the tidal volume distending the dependent regions (Vtdep), resulting in improved Hom (1.1±0.9 vs. 1.7±0.9, P=0.021). PP also reduced ODCL (19±9% vs. 28±8%, P=0.005) and increased the recruitable lung volume (80 [71-157] vs. 59 [1-110] mL, P=0.025). “Improved lung protection” by PP was predicted by lower Vtdep, higher Vtndep and poorer Hom measured during baseline supine position (P<0.05). CONCLUSIONS: EIT enables dynamic bedside assessment of the physiologic effects of PP and might support early recognition of ARDS patients more likely to benefit from PP.

Published
2020

5. Respiratory mechanics to understand ARDS and guide mechanical ventilation

Author

Mauri, T, Lazzeri, M, Bellani, G, Zanella, A, Grasselli, G, Mauri T., Lazzeri M., Bellani G., Zanella A., Grasselli G., Mauri, T, Lazzeri, M, Bellani, G, Zanella, A, Grasselli, G, Mauri T., Lazzeri M., Bellani G., Zanella A., and Grasselli G.

Abstract

Objective: As precision medicine is becoming a standard of care in selecting tailored rather than average treatments, physiological measurements might represent the first step in applying personalized therapy in the intensive care unit (ICU). A systematic assessment of respiratory mechanics in patients with the acute respiratory distress syndrome (ARDS) could represent a step in this direction, for two main reasons. Approach and Main results: On the one hand, respiratory mechanics are a powerful physiological method to understand the severity of this syndrome in each single patient. Decreased respiratory system compliance, for example, is associated with low end expiratory lung volume and more severe lung injury. On the other hand, respiratory mechanics might guide protective mechanical ventilation settings. Improved gravitationally dependent regional lung compliance could support the selection of positive end-expiratory pressure and maximize alveolar recruitment. Moreover, the association between driving airway pressure and mortality in ARDS patients potentially underlines the importance of sizing tidal volume on respiratory system compliance rather than on predicted body weight. Significance: The present review article aims to describe the main alterations of respiratory mechanics in ARDS as a potent bedside tool to understand severity and guide mechanical ventilation settings, thus representing a readily available clinical resource for ICU physicians.

Published
2017

7. Pressure support ventilation + sigh in acute hypoxemic respiratory failure patients: study protocol for a pilot randomized controlled trial, the PROTECTION trial

Author

Mauri, T, Foti, G, Fornari, C, Constantin, J, Guerin, C, Pelosi, P, Ranieri, M, Conti, S, Tubiolo, D, Rondelli, E, Lovisari, F, Fossali, T, Spadaro, S, Grieco, D, Navalesi, P, Calamai, I, Becher, T, Roca, O, Wang, Y, Knafelj, R, Cortegiani, A, Mancebo, J, Brochard, L, Pesenti, A, Grasselli, G, Spinelli, E, Abbruzzese, C, Rona, R, Bronco, A, Villa, S, Gianni, S, Papoff, A, Pinciroli, R, Colombo, R, Sproccati, C, Mandelli, P, Villa, F, Patroniti, N, Brunetti, I, Ball, L, Volta, C, Lazzeri, M, Maragoni, E, Eleuteri, D, Bello, G, Dell'Anna, A, Garofalo, E, Bruni, A, Biamonte, E, D'Andrea, R, Querci, L, Pierucci, E, Spina, R, Mori, I, Tomeo, F, Mercat, A, Beloncle, F, Jochmans, S, Mazerand, S, Baboi, L, Yonis, H, Jabaudon, M, Godet, T, Jovaisa, T, Barnes, T, Tariq, U, Weiler, N, Schädler, D, Frerichs, I, García-de-Acilu, M, Vidal, A, Rosas, E, Calvo, C, Zhou, J, Karagiannis, S, Zisopoulou, V, Staikos, I, Noc, M, Fister, M, Radsel, P, Gregoretti, C, Sabella, I, Raineri, S, Mauri, Tommaso, Foti, Giuseppe, Fornari, Carla, Constantin, Jean-Michel, Guerin, Claude, Pelosi, Paolo, Ranieri, Marco, Conti, Sara, Tubiolo, Daniela, RONDELLI, EGLE ROSALIA, Lovisari, Federica, Fossali, Tommaso, Spadaro, Savino, Grieco, Domenico Luca, Navalesi, Paolo, Calamai, Italo, Becher, Tobias, Roca, Oriol, Wang, Yu-Mei, Knafelj, Rihard, Cortegiani, Andrea, Mancebo, Jordi, Brochard, Laurent, Pesenti, Antonio, Volta, CA, dell'Anna, A, Calvo, CP, Zhou, JX, Raineri, SM, Mauri, T, Foti, G, Fornari, C, Constantin, J, Guerin, C, Pelosi, P, Ranieri, M, Conti, S, Tubiolo, D, Rondelli, E, Lovisari, F, Fossali, T, Spadaro, S, Grieco, D, Navalesi, P, Calamai, I, Becher, T, Roca, O, Wang, Y, Knafelj, R, Cortegiani, A, Mancebo, J, Brochard, L, Pesenti, A, Grasselli, G, Spinelli, E, Abbruzzese, C, Rona, R, Bronco, A, Villa, S, Gianni, S, Papoff, A, Pinciroli, R, Colombo, R, Sproccati, C, Mandelli, P, Villa, F, Patroniti, N, Brunetti, I, Ball, L, Volta, C, Lazzeri, M, Maragoni, E, Eleuteri, D, Bello, G, Dell'Anna, A, Garofalo, E, Bruni, A, Biamonte, E, D'Andrea, R, Querci, L, Pierucci, E, Spina, R, Mori, I, Tomeo, F, Mercat, A, Beloncle, F, Jochmans, S, Mazerand, S, Baboi, L, Yonis, H, Jabaudon, M, Godet, T, Jovaisa, T, Barnes, T, Tariq, U, Weiler, N, Schädler, D, Frerichs, I, García-de-Acilu, M, Vidal, A, Rosas, E, Calvo, C, Zhou, J, Karagiannis, S, Zisopoulou, V, Staikos, I, Noc, M, Fister, M, Radsel, P, Gregoretti, C, Sabella, I, Raineri, S, Mauri, Tommaso, Foti, Giuseppe, Fornari, Carla, Constantin, Jean-Michel, Guerin, Claude, Pelosi, Paolo, Ranieri, Marco, Conti, Sara, Tubiolo, Daniela, RONDELLI, EGLE ROSALIA, Lovisari, Federica, Fossali, Tommaso, Spadaro, Savino, Grieco, Domenico Luca, Navalesi, Paolo, Calamai, Italo, Becher, Tobias, Roca, Oriol, Wang, Yu-Mei, Knafelj, Rihard, Cortegiani, Andrea, Mancebo, Jordi, Brochard, Laurent, Pesenti, Antonio, Volta, CA, dell'Anna, A, Calvo, CP, Zhou, JX, and Raineri, SM

Abstract

BACKGROUND: Adding cyclic short sustained inflations (sigh) to assisted ventilation yields optimizes lung recruitment, decreases heterogeneity and reduces inspiratory effort in patients with acute hypoxemic respiratory failure (AHRF). These findings suggest that adding sigh to pressure support ventilation (PSV) might decrease the risk of lung injury, shorten weaning and improve clinical outcomes. Thus, we conceived a pilot trial to test the feasibility of adding sigh to PSV (the PROTECTION study). METHODS: PROTECTION is an international randomized controlled trial that will be conducted in 23 intensive care units (ICUs). Patients with AHRF who have been intubated from 24 h to 7 days and undergoing PSV from 4 to 24 h will be enrolled. All patients will first undergo a 30-min sigh test by adding sigh to clinical PSV for 30 min to identify early oxygenation responders. Then, patients will be randomized to PSV or PSV + sigh until extubation, ICU discharge, death or day 28. Sigh will be delivered as a 3-s pressure control breath delivered once per minute at 30 cmH2O. Standardized protocols will guide ventilation settings, switch back to controlled ventilation, use of rescue treatments, performance of spontaneous breathing trial, extubation and reintubation. The primary endpoint of the study will be to verify the feasibility of PSV + sigh evaluated through reduction of failure to remain on assisted ventilation during the first 28 days in the PSV + sigh group versus standard PSV (15 vs. 22%). Failure will be defined by switch back to controlled ventilation for more than 24 h or use of rescue treatments or reintubation within 48 h from elective extubation. Setting the power to 80% and first-risk order to 5%, the computed size of the trial is 129 patients per arm. DISCUSSION: PROTECTION is a pilot randomized controlled trial testing the feasibility of adding sigh to PSV. If positive, it will provide physicians with an effective addition to standard PSV for lung protection, a

Published
2018

10. Pressure support ventilation + sigh in acute hypoxemic respiratory failure patients: study protocol for a pilot randomized controlled trial, the PROTECTION trial

Author

Mauri, T, Foti, G, Fornari, C, Constantin, J, Guerin, C, Pelosi, P, Ranieri, M, Conti, S, Tubiolo, D, Rondelli, E, Lovisari, F, Fossali, T, Spadaro, S, Grieco, D, Navalesi, P, Calamai, I, Becher, T, Roca, O, Wang, Y, Knafelj, R, Cortegiani, A, Mancebo, J, Brochard, L, Pesenti, A, Grasselli, G, Spinelli, E, Abbruzzese, C, Rona, R, Bronco, A, Villa, S, Gianni, S, Papoff, A, Pinciroli, R, Colombo, R, Sproccati, C, Mandelli, P, Villa, F, Patroniti, N, Brunetti, I, Ball, L, Volta, C, Lazzeri, M, Maragoni, E, Eleuteri, D, Bello, G, Dell'Anna, A, Garofalo, E, Bruni, A, Biamonte, E, D'Andrea, R, Querci, L, Pierucci, E, Spina, R, Mori, I, Tomeo, F, Mercat, A, Beloncle, F, Jochmans, S, Mazerand, S, Baboi, L, Yonis, H, Jabaudon, M, Godet, T, Jovaisa, T, Barnes, T, Tariq, U, Weiler, N, Schädler, D, Frerichs, I, García-de-Acilu, M, Vidal, A, Rosas, E, Calvo, C, Zhou, J, Karagiannis, S, Zisopoulou, V, Staikos, I, Noc, M, Fister, M, Radsel, P, Gregoretti, C, Sabella, I, Raineri, S, Mauri, Tommaso, Foti, Giuseppe, Fornari, Carla, Constantin, Jean-Michel, Guerin, Claude, Pelosi, Paolo, Ranieri, Marco, Conti, Sara, Tubiolo, Daniela, RONDELLI, EGLE ROSALIA, Lovisari, Federica, Fossali, Tommaso, Spadaro, Savino, Grieco, Domenico Luca, Navalesi, Paolo, Calamai, Italo, Becher, Tobias, Roca, Oriol, Wang, Yu-Mei, Knafelj, Rihard, Cortegiani, Andrea, Mancebo, Jordi, Brochard, Laurent, Pesenti, Antonio, Volta, CA, dell'Anna, A, Calvo, CP, Zhou, JX, Raineri, SM, Mauri, T, Foti, G, Fornari, C, Constantin, J, Guerin, C, Pelosi, P, Ranieri, M, Conti, S, Tubiolo, D, Rondelli, E, Lovisari, F, Fossali, T, Spadaro, S, Grieco, D, Navalesi, P, Calamai, I, Becher, T, Roca, O, Wang, Y, Knafelj, R, Cortegiani, A, Mancebo, J, Brochard, L, Pesenti, A, Grasselli, G, Spinelli, E, Abbruzzese, C, Rona, R, Bronco, A, Villa, S, Gianni, S, Papoff, A, Pinciroli, R, Colombo, R, Sproccati, C, Mandelli, P, Villa, F, Patroniti, N, Brunetti, I, Ball, L, Volta, C, Lazzeri, M, Maragoni, E, Eleuteri, D, Bello, G, Dell'Anna, A, Garofalo, E, Bruni, A, Biamonte, E, D'Andrea, R, Querci, L, Pierucci, E, Spina, R, Mori, I, Tomeo, F, Mercat, A, Beloncle, F, Jochmans, S, Mazerand, S, Baboi, L, Yonis, H, Jabaudon, M, Godet, T, Jovaisa, T, Barnes, T, Tariq, U, Weiler, N, Schädler, D, Frerichs, I, García-de-Acilu, M, Vidal, A, Rosas, E, Calvo, C, Zhou, J, Karagiannis, S, Zisopoulou, V, Staikos, I, Noc, M, Fister, M, Radsel, P, Gregoretti, C, Sabella, I, Raineri, S, Mauri, Tommaso, Foti, Giuseppe, Fornari, Carla, Constantin, Jean-Michel, Guerin, Claude, Pelosi, Paolo, Ranieri, Marco, Conti, Sara, Tubiolo, Daniela, RONDELLI, EGLE ROSALIA, Lovisari, Federica, Fossali, Tommaso, Spadaro, Savino, Grieco, Domenico Luca, Navalesi, Paolo, Calamai, Italo, Becher, Tobias, Roca, Oriol, Wang, Yu-Mei, Knafelj, Rihard, Cortegiani, Andrea, Mancebo, Jordi, Brochard, Laurent, Pesenti, Antonio, Volta, CA, dell'Anna, A, Calvo, CP, Zhou, JX, and Raineri, SM

Abstract

BACKGROUND: Adding cyclic short sustained inflations (sigh) to assisted ventilation yields optimizes lung recruitment, decreases heterogeneity and reduces inspiratory effort in patients with acute hypoxemic respiratory failure (AHRF). These findings suggest that adding sigh to pressure support ventilation (PSV) might decrease the risk of lung injury, shorten weaning and improve clinical outcomes. Thus, we conceived a pilot trial to test the feasibility of adding sigh to PSV (the PROTECTION study). METHODS: PROTECTION is an international randomized controlled trial that will be conducted in 23 intensive care units (ICUs). Patients with AHRF who have been intubated from 24 h to 7 days and undergoing PSV from 4 to 24 h will be enrolled. All patients will first undergo a 30-min sigh test by adding sigh to clinical PSV for 30 min to identify early oxygenation responders. Then, patients will be randomized to PSV or PSV + sigh until extubation, ICU discharge, death or day 28. Sigh will be delivered as a 3-s pressure control breath delivered once per minute at 30 cmH2O. Standardized protocols will guide ventilation settings, switch back to controlled ventilation, use of rescue treatments, performance of spontaneous breathing trial, extubation and reintubation. The primary endpoint of the study will be to verify the feasibility of PSV + sigh evaluated through reduction of failure to remain on assisted ventilation during the first 28 days in the PSV + sigh group versus standard PSV (15 vs. 22%). Failure will be defined by switch back to controlled ventilation for more than 24 h or use of rescue treatments or reintubation within 48 h from elective extubation. Setting the power to 80% and first-risk order to 5%, the computed size of the trial is 129 patients per arm. DISCUSSION: PROTECTION is a pilot randomized controlled trial testing the feasibility of adding sigh to PSV. If positive, it will provide physicians with an effective addition to standard PSV for lung protection, a

Published
2018

11. Advanced capabilities for materials modelling with Quantum ESPRESSO

Author

UCL - SST/IMCN/MODL - Modelling, Giannozzi, P, Andreussi, O, Brumme, T, Bunau, O, Buongiorno Nardelli, M, Calandra, M, Car, R, Cavazzoni, C, Ceresoli, D, Cococcioni, M, Colonna, N, Carnimeo, I, Dal Corso, A, de Gironcoli, S, Delugas, P, DiStasio, R A, Ferretti, A, Floris, A, Fratesi, G, Fugallo, G, Gebauer, R, Gerstmann, U, Giustino, F, Gorni, T, Jia, J, Kawamura, M, Ko, H-Y, Kokalj, A, Küçükbenli, E, Lazzeri, M, Marsili, M, Marzari, N, Mauri, F, Nguyen, N L, Nguyen, H-V, Otero-de-la-Roza, A, Paulatto, L, Poncé, Samuel, Rocca, D, Sabatini, R, Santra, B, Schlipf, M, Seitsonen, A P, Smogunov, A, Timrov, I, Thonhauser, T, Umari, P, Vast, N, Wu, X, Baroni, S, UCL - SST/IMCN/MODL - Modelling, Giannozzi, P, Andreussi, O, Brumme, T, Bunau, O, Buongiorno Nardelli, M, Calandra, M, Car, R, Cavazzoni, C, Ceresoli, D, Cococcioni, M, Colonna, N, Carnimeo, I, Dal Corso, A, de Gironcoli, S, Delugas, P, DiStasio, R A, Ferretti, A, Floris, A, Fratesi, G, Fugallo, G, Gebauer, R, Gerstmann, U, Giustino, F, Gorni, T, Jia, J, Kawamura, M, Ko, H-Y, Kokalj, A, Küçükbenli, E, Lazzeri, M, Marsili, M, Marzari, N, Mauri, F, Nguyen, N L, Nguyen, H-V, Otero-de-la-Roza, A, Paulatto, L, Poncé, Samuel, Rocca, D, Sabatini, R, Santra, B, Schlipf, M, Seitsonen, A P, Smogunov, A, Timrov, I, Thonhauser, T, Umari, P, Vast, N, Wu, X, and Baroni, S

Abstract

Quantum ESPRESSO is an integrated suite of open-source computer codes for quantum simulations of materials using state-of-the-art electronic-structure techniques, based on density-functional theory, density-functional perturbation theory, and many-body perturbation theory, within the plane-wave pseudopotential and projector-augmented-wave approaches. Quantum ESPRESSO owes its popularity to the wide variety of properties and processes it allows to simulate, to its performance on an increasingly broad array of hardware architectures, and to a community of researchers that rely on its capabilities as a core open-source development platform to implement their ideas. In this paper we describe recent extensions and improvements, covering new ethodologies and property calculators, improved parallelization, code modularization, and extended interoperability both within the distribution and with external software.

Published
2017

12. Comparison of Two Prostate Cancer Risk Calculators that Include the Prostate Health Index

Author

Roobol-Bouts, M.J. (Monique), Vedder, M.M. (Moniek), Nieboer, D. (Daan), Houlgatte, A. (Alain), Vincendeau, S. (Sébastien), Lazzeri, M. (Massimo), Guazzoni, G. (Giorgio), Stephan, C. (Carsten), Semjonow, A. (Axel), Haese, A. (Alexander), Graefen, M. (Markus), Steyerberg, E.W. (Ewout), Roobol-Bouts, M.J. (Monique), Vedder, M.M. (Moniek), Nieboer, D. (Daan), Houlgatte, A. (Alain), Vincendeau, S. (Sébastien), Lazzeri, M. (Massimo), Guazzoni, G. (Giorgio), Stephan, C. (Carsten), Semjonow, A. (Axel), Haese, A. (Alexander), Graefen, M. (Markus), and Steyerberg, E.W. (Ewout)

Abstract

Background: Risk prediction models for prostate cancer (PCa) have become important tools in reducing unnecessary prostate biopsies. The Prostate Health Index (PHI) may increase the predictive accuracy of such models. Objectives: To compare two PCa risk calculators (RCs) that include PHI. Design, setting, and participants: We evaluated the predictive performance of a previously developed PHI-based nomogram and updated versions of the European Randomized Study of Screening for Prostate Cancer (ERSPC) RCs based on digital rectal examination (DRE): RC3 (no prior biopsy) and RC4 (prior biopsy). For the ERSPC updates, the original RCs were recalibrated and PHI was added as a predictor. The PHI-updated ERSPC RCs were compared with the Lughezzani nomogram in 1185 men from four European sites. Outcomes were biopsy-detectable PC and potentially advanced or aggressive PCa, defined as clinical stage >T2b and/or a Gleason score ≥7 (clinically relevant PCa). Results and limitations: The PHI-updated ERSPC models had a combined area under the curve for the receiver operating characteristic (AUC) of 0.72 for all PCa and 0.68 for clinically relevant PCa. For the Lughezzani PHI-based nomogram, AUCs were 0.75 for all PCa and 0.69 for clinically relevant PCa. For men without a prior biopsy, PHI-updated RC3 resulted in AUCs of 0.73 for PCa and 0.66 for clinically relevant PCa. Decision curves confirmed these patterns, although the number of clinically relevant cancers was low. Conclusion: Differences between RCs that include PHI are small. Addition of PHI to an RC leads to further reductions in the rate of unnecessary biopsies when compared to a strategy based on prostate-specific antigen measurement. Patient summary: Risk prediction models for prostate cancer have become important tools in reducing unnecessary prostate biopsies. We compared two risk prediction models for prostate cancer that include the Prostate Health Index. We found that these models are equivalent to each other, and

Published
2015
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13. Variations in the work function of doped single- and few-layer graphene assessed by Kelvin probe force microscopy and density functional theory

Author

Ziegler, D., Gava, P., Guettinger, J., Molitor, F., Wirtz, Ludger, Lazzeri, M., Saitta, A. M., Stemmer, A., Mauri, F., Stampfer, C., Ziegler, D., Gava, P., Guettinger, J., Molitor, F., Wirtz, Ludger, Lazzeri, M., Saitta, A. M., Stemmer, A., Mauri, F., and Stampfer, C.

Abstract

We present Kelvin probe force microscopy measurements of single-and few-layer graphene resting on SiO2 substrates. We compare the layer thickness dependency of the measured surface potential with ab initio density functional theory calculations of the work function for substrate-doped graphene. The ab initio calculations show that the work function of single-and bilayer graphene is mainly given by a variation of the Fermi energy with respect to the Dirac point energy as a function of doping, and that electrostatic interlayer screening only becomes relevant for thicker multilayer graphene. From the Raman G-line shift and the comparison of the Kelvin probe data with the ab initio calculations, we independently find an interlayer screening length in the order of four to five layers. Furthermore, we describe in-plane variations of the work function, which can be attributed to partial screening of charge impurities in the substrate, and result in a nonuniform charge density in single-layer graphene.

Published
2011

14. Variations in the work function of doped single- and few-layer graphene assessed by Kelvin probe force microscopy and density functional theory

Author

Ziegler, D., Gava, P., Guettinger, J., Molitor, F., Wirtz, Ludger, Lazzeri, M., Saitta, A. M., Stemmer, A., Mauri, F., Stampfer, C., Ziegler, D., Gava, P., Guettinger, J., Molitor, F., Wirtz, Ludger, Lazzeri, M., Saitta, A. M., Stemmer, A., Mauri, F., and Stampfer, C.

Abstract

We present Kelvin probe force microscopy measurements of single-and few-layer graphene resting on SiO2 substrates. We compare the layer thickness dependency of the measured surface potential with ab initio density functional theory calculations of the work function for substrate-doped graphene. The ab initio calculations show that the work function of single-and bilayer graphene is mainly given by a variation of the Fermi energy with respect to the Dirac point energy as a function of doping, and that electrostatic interlayer screening only becomes relevant for thicker multilayer graphene. From the Raman G-line shift and the comparison of the Kelvin probe data with the ab initio calculations, we independently find an interlayer screening length in the order of four to five layers. Furthermore, we describe in-plane variations of the work function, which can be attributed to partial screening of charge impurities in the substrate, and result in a nonuniform charge density in single-layer graphene.

Published
2011

15. Phonon surface mapping of graphite: Disentangling quasi-degenerate phonon dispersions

Author

Grueneis, A., Serrano, J., Bosak, A., Lazzeri, M., Molodtsov, S. L., Wirtz, Ludger, Attaccalite, C., Krisch, M., Rubio, A., Mauri, F., Pichler, T., Grueneis, A., Serrano, J., Bosak, A., Lazzeri, M., Molodtsov, S. L., Wirtz, Ludger, Attaccalite, C., Krisch, M., Rubio, A., Mauri, F., and Pichler, T.

Abstract

The two-dimensional mapping of the phonon dispersions around the K point of graphite by inelastic x-ray scattering is provided. The present work resolves the longstanding issue related to the correct assignment of transverse and longitudinal phonon branches at K. We observe an almost degeneracy of the three TO-, LA-, and LO-derived phonon branches and a strong phonon trigonal warping. Correlation effects renormalize the Kohn anomaly of the TO mode, which exhibits a trigonal warping effect opposite to that of the electronic band structure. We determined the electron-phonon coupling constant to be 166 (eV/A degrees)(2) in excellent agreement to GW calculations. These results are fundamental for understanding angle-resolved photoemission, double-resonance Raman and transport measurements of graphene-based systems.

Published
2009

16. Phonon surface mapping of graphite: Disentangling quasi-degenerate phonon dispersions

Author

Grueneis, A., Serrano, J., Bosak, A., Lazzeri, M., Molodtsov, S. L., Wirtz, Ludger, Attaccalite, C., Krisch, M., Rubio, A., Mauri, F., Pichler, T., Grueneis, A., Serrano, J., Bosak, A., Lazzeri, M., Molodtsov, S. L., Wirtz, Ludger, Attaccalite, C., Krisch, M., Rubio, A., Mauri, F., and Pichler, T.

Abstract

The two-dimensional mapping of the phonon dispersions around the K point of graphite by inelastic x-ray scattering is provided. The present work resolves the longstanding issue related to the correct assignment of transverse and longitudinal phonon branches at K. We observe an almost degeneracy of the three TO-, LA-, and LO-derived phonon branches and a strong phonon trigonal warping. Correlation effects renormalize the Kohn anomaly of the TO mode, which exhibits a trigonal warping effect opposite to that of the electronic band structure. We determined the electron-phonon coupling constant to be 166 (eV/A degrees)(2) in excellent agreement to GW calculations. These results are fundamental for understanding angle-resolved photoemission, double-resonance Raman and transport measurements of graphene-based systems.

Published
2009

17. Theoretical Infrared Absorption Coefficient of OH Groups in Minerals

Author

Balan, E., Refson, K., Blanchard, M., Delattre, S., Lazzeri, M., Ingrin, J., Mauri, F., Wright, Kathleen, Winkler, B., Balan, E., Refson, K., Blanchard, M., Delattre, S., Lazzeri, M., Ingrin, J., Mauri, F., Wright, Kathleen, and Winkler, B.

Abstract

The integrated molar absorption coefficient of isolated and localized OH groups in selected minerals is theoretically investigated within the density functional theory framework. The overall decrease in absorption coefficient of stretching modes observed with increasing frequency is consistent with the experimental observations. It is related to a decrease in the magnitude of the hydrogen Born effective charge tensor projected along the OH bond as a function of increasing H-bonding. The scatter of theoretical data shows that the use of a general calibration of infrared absorbances in minerals cannot lead to accurate water contents. In contrast, the combination of theoretical modeling and experimental measurements should improve the determination of the hydrogen distribution among structurally distinct OH defects in nominally anhydrous minerals.

Published
2008

18. Raman spectra of BN nanotubes: Ab initio and bond-polarizability model calculations

Author

Wirtz, Ludger, Lazzeri, M., Mauri, F., Rubio, A., Wirtz, Ludger, Lazzeri, M., Mauri, F., and Rubio, A.

Abstract

We present ab initio calculations of the nonresonant Raman spectra of zigzag and armchair BN nanotubes. In comparison, we implement a generalized bond-polarizability model where the parameters are extracted from first-principles calculations of the polarizability tensor of a BN sheet. For light polarization along the tube axis, the agreement between model and ab initio spectra is almost perfect. For perpendicular polarization, depolarization effects have to be included in the model in order to reproduce the ab initio Raman intensities.

Published
2005

19. Raman spectra of BN nanotubes: Ab initio and bond-polarizability model calculations

Author

Wirtz, Ludger, Lazzeri, M., Mauri, F., Rubio, A., Wirtz, Ludger, Lazzeri, M., Mauri, F., and Rubio, A.

Abstract

We present ab initio calculations of the nonresonant Raman spectra of zigzag and armchair BN nanotubes. In comparison, we implement a generalized bond-polarizability model where the parameters are extracted from first-principles calculations of the polarizability tensor of a BN sheet. For light polarization along the tube axis, the agreement between model and ab initio spectra is almost perfect. For perpendicular polarization, depolarization effects have to be included in the model in order to reproduce the ab initio Raman intensities.

Published
2005

20. Reduced partition function ratios of iron and oxygen in goethite

Author

Blanchard, M., Dauphas, N., Hu, M. Y., Roskosz, M., Alp, E. E., Golden, D. C., Sio, C. K., Tissot, F. L. H., Zhao, J., Gao, L., Morris, R. V., Fornace, M., Floris, A., Lazzeri, M., Balan, E., Blanchard, M., Dauphas, N., Hu, M. Y., Roskosz, M., Alp, E. E., Golden, D. C., Sio, C. K., Tissot, F. L. H., Zhao, J., Gao, L., Morris, R. V., Fornace, M., Floris, A., Lazzeri, M., and Balan, E.

Abstract

First-principles calculations based on the density functional theory (DFT) with or without the addition of a Hubbard U correction, are performed on goethite in order to determine the iron and oxygen reduced partition function ratios (β-factors). The calculated iron phonon density of states (pDOS), force constant and β-factor are compared with reevaluated experimental β-factors obtained from Nuclear Resonant Inelastic X-ray Scattering (NRIXS) measurements. The reappraisal of old experimental data is motivated by the erroneous previous interpretation of the low- and high-energy ends of the NRIXS spectrum of goethite and jarosite samples (Dauphas et al., 2012). Here the NRIXS data are analyzed using the SciPhon software that corrects for non-constant baseline. New NRIXS measurements also demonstrate the reproducibility of the results. Unlike for hematite and pyrite, a significant discrepancy remains between DFT, NRIXS and the existing Mössbauer-derived data. Calculations suggest a slight overestimation of the NRIXS signal possibly related to the baseline definition. The intrinsic features of the samples studied by NRIXS and Mössbauer spectroscopy may also contribute to the discrepancy (e.g., internal structural and/or chemical defects, microstructure, surface contribution). As for oxygen, DFT results indicate that goethite and hematite have similar β-factors, which suggests almost no fractionation between the two minerals at equilibrium.

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