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Nieman, Gary; Kollisch-Singule, Michaela; Ramcharran, Harry; Satalin, Joshua; Blair, Sarah; Gatto, Louis A.; Andrews, Penny; Ghosh, Auyon; Kaczka, David W.; Gaver, Donald; et al (, Critical Care)Abstract A hallmark of ARDS is progressive shrinking of the ‘baby lung,’ now referred to as the ventilator-induced lung injury (VILI) ‘vortex.’ Reducing the risk of the VILI vortex is the goal of current ventilation strategies; unfortunately, this goal has not been achieved nor has mortality been reduced. However, the temporal aspects of a mechanical breath have not been considered. A brief expiration prevents alveolar collapse, and an extended inspiration can recruit the atelectatic lung over hours. Time-controlled adaptive ventilation (TCAV) is a novel ventilator approach to achieve these goals, since it considers many of the temporal aspects of dynamic lung mechanics.more » « less
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Ramcharran, Harry; Bates, Jason H.; Satalin, Joshua; Blair, Sarah; Andrews, Penny L.; Gaver, Donald P.; Gatto, Louis A.; Wang, Guirong; Ghosh, Auyon J.; Robedee, Benjamin; et al (, Journal of Applied Physiology)In a large animal model of ARDS, recruitment/derecruitment caused greater VILI than overdistension, whereas both mechanisms together caused severe lung damage. These findings suggest that eliminating cyclic recruitment and derecruitment during mechanical ventilation should be a preeminent management goal for the patient with ARDS. The airway pressure release ventilation (APRV) mode of mechanical ventilation can achieve this if delivered with an expiratory duration (TLow) that is brief enough to prevent derecruitment at end expiration.more » « less
