Acute respiratory distress syndrome is an inhomogeneity disease. As we all know, low tidal volume, tress control and prone position ventilation could improve mortality, but the mortality is still high. Low tidal volume could protect lung from high strain, low plateau pressure and driving pressure could protect it from high stress, and mechanical power could summarize all of the parameters together to predict risks of lung injury, however, it is still difficult to optimize ventilator settings to protect the lung. There are also a lot of questions to be clarified, the mechanisms of ventilator induced lung injury, the respiratory driving control, the PEEP settings, lung recruitability measurement and transpulmonary pressure monitoring, et al. We hope we could explore the mechanisms of ventilator induced lung injury and clarify how to optimize ventilator settings to improve prognosis of ARDS.
For this Research Topic, we would like to bring together recent advances to clarify the mechanisms of ventilator induced lung injury, the respiratory driving control, the PEEP settings, lung recruitability measurement and transpulmonary pressure monitoring, et al.. We aim at exploring the mechanisms of lung injury and strategies to optimize lung protective.
Submissions of Original Article, Review, and Mini Review on, but not limited to, the topics below are welcomed in this collection.
• Randomize control, observational clinical studies on lung protective strategy
• Mechanisms of ventilator induced lung injury
• Optimizing PEEP settings
• Ventilation protective monitoring
Acute respiratory distress syndrome is an inhomogeneity disease. As we all know, low tidal volume, tress control and prone position ventilation could improve mortality, but the mortality is still high. Low tidal volume could protect lung from high strain, low plateau pressure and driving pressure could protect it from high stress, and mechanical power could summarize all of the parameters together to predict risks of lung injury, however, it is still difficult to optimize ventilator settings to protect the lung. There are also a lot of questions to be clarified, the mechanisms of ventilator induced lung injury, the respiratory driving control, the PEEP settings, lung recruitability measurement and transpulmonary pressure monitoring, et al. We hope we could explore the mechanisms of ventilator induced lung injury and clarify how to optimize ventilator settings to improve prognosis of ARDS.
For this Research Topic, we would like to bring together recent advances to clarify the mechanisms of ventilator induced lung injury, the respiratory driving control, the PEEP settings, lung recruitability measurement and transpulmonary pressure monitoring, et al.. We aim at exploring the mechanisms of lung injury and strategies to optimize lung protective.
Submissions of Original Article, Review, and Mini Review on, but not limited to, the topics below are welcomed in this collection.
• Randomize control, observational clinical studies on lung protective strategy
• Mechanisms of ventilator induced lung injury
• Optimizing PEEP settings
• Ventilation protective monitoring