André Dos Santos Rocha1, Roberta Südy1, Ferenc Peták2, Walid Habre3. 1. Unit for Anaesthesiological Investigations, Department of Acute Medicine, University Hospitals of Geneva and University of Geneva, Geneva, Switzerland. 2. Department of Medical Physics and Informatics, University of Szeged, Szeged, Hungary. 3. Unit for Anaesthesiological Investigations, Department of Acute Medicine, University Hospitals of Geneva and University of Geneva, Geneva, Switzerland. Electronic address: walid.habre@hcuge.ch.
Abstract
BACKGROUND: Mechanical ventilation during status asthmaticus is challenging and increases the risk of severe complications. We recently reported the value of physiologically variable ventilation (PVV) in healthy and acutely injured lungs. We investigated whether PVV provides benefits compared with pressure-controlled ventilation (PCV) in an experimental model of severe acute asthma. METHODS: Allergen-sensitised rabbits were anaesthetised and randomised to either PCV (n=10) or PVV (n=12) during sustained bronchoconstriction induced by allergen and cholinergic stimuli for 6 h. The PVV pattern was generated from pre-recorded spontaneous breathing. Ventilation parameters, oxygenation index (PaO2/FiO2), and respiratory mechanics were measured hourly. Histological injury and inflammation were quantified after 6 h of ventilation. RESULTS: PVV resulted in lower driving pressures (13.7 cm H2O [12.5-14.9], mean [95% confidence interval]), compared with pressure-controlled ventilation (17.6 cm H2O [15.4-19.8]; P=0.002). PVV improved PaO2/FiO2 (PVV: 55.1 kPa [52-58.2]; PCV: 45.6 kPa [39.3-51.9]; P=0.018) and maintained tissue elastance (PVV: +8.7% [-0.6 to 18]; PCV: -11.2% [-17.3 to -5.1]; P=0.03). PVV resulted in less lung injury as assessed by lower histological injury score (PVV: 0.65 [0.62-0.65]; PCV: 0.71 [0.69-0.73]; P=0.003), cell count (PVV: 247 104 ml-1 [189-305]; PCV: 447 104 ml-1 [324-570]; P=0.005), and protein concentration in bronchoalveolar lavage fluid (PVV: 0.14 μg ml-1 [0.10-0.18]; PCV: 0.21 μg ml-1 [0.15-0.27]; P=0.035). CONCLUSIONS: Applying physiological variable ventilation in a model of asthma exacerbation led to improvements in gas exchange, ventilatory pressures, and respiratory tissue mechanics, and reduced lung injury. A global reduction in lung shear stress and recruitment effects may explain the benefits of PVV in status asthmaticus.
BACKGROUND: Mechanical ventilation during status asthmaticus is challenging and increases the risk of severe complications. We recently reported the value of physiologically variable ventilation (PVV) in healthy and acutely injured lungs. We investigated whether PVV provides benefits compared with pressure-controlled ventilation (PCV) in an experimental model of severe acute asthma. METHODS: Allergen-sensitised rabbits were anaesthetised and randomised to either PCV (n=10) or PVV (n=12) during sustained bronchoconstriction induced by allergen and cholinergic stimuli for 6 h. The PVV pattern was generated from pre-recorded spontaneous breathing. Ventilation parameters, oxygenation index (PaO2/FiO2), and respiratory mechanics were measured hourly. Histological injury and inflammation were quantified after 6 h of ventilation. RESULTS: PVV resulted in lower driving pressures (13.7 cm H2O [12.5-14.9], mean [95% confidence interval]), compared with pressure-controlled ventilation (17.6 cm H2O [15.4-19.8]; P=0.002). PVV improved PaO2/FiO2 (PVV: 55.1 kPa [52-58.2]; PCV: 45.6 kPa [39.3-51.9]; P=0.018) and maintained tissue elastance (PVV: +8.7% [-0.6 to 18]; PCV: -11.2% [-17.3 to -5.1]; P=0.03). PVV resulted in less lung injury as assessed by lower histological injury score (PVV: 0.65 [0.62-0.65]; PCV: 0.71 [0.69-0.73]; P=0.003), cell count (PVV: 247 104 ml-1 [189-305]; PCV: 447 104 ml-1 [324-570]; P=0.005), and protein concentration in bronchoalveolar lavage fluid (PVV: 0.14 μg ml-1 [0.10-0.18]; PCV: 0.21 μg ml-1 [0.15-0.27]; P=0.035). CONCLUSIONS: Applying physiological variable ventilation in a model of asthma exacerbation led to improvements in gas exchange, ventilatory pressures, and respiratory tissue mechanics, and reduced lung injury. A global reduction in lung shear stress and recruitment effects may explain the benefits of PVV in status asthmaticus.
Authors: Andre Dos Santos Rocha; Roberta Südy; Davide Bizzotto; Miklos Kassai; Tania Carvalho; Raffaele L Dellacà; Ferenc Peták; Walid Habre Journal: Front Physiol Date: 2021-01-13 Impact factor: 4.566
Authors: Jonathan Rodríguez-Blanco; Tomás Rodríguez-Yanez; Jesús Daniel Rodríguez-Blanco; Amilkar José Almanza-Hurtado; María Cristina Martínez-Ávila; Diana Borré-Naranjo; María Camila Acuña Caballero; Carmelo Dueñas-Castell Journal: J Int Med Res Date: 2022-09 Impact factor: 1.573