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Right Ventricular Loading by Lung Inflation during Controlled Mechanical Ventilation

Douglas Slobod, Nawaporn Assanangkornchai, Manal Alhazza, Pattra Mettasittigorn, Sheldon Magder

2022American Journal of Respiratory and Critical Care Medicine47 citationsDOI

Abstract

Abstract Rationale The inspiratory rise in transpulmonary pressure during mechanical ventilation increases right ventricular (RV) afterload. One mechanism is that when Palv exceeds left atrial pressure, West zone 1 or 2 (non–zone 3) conditions develop, and Palv becomes the downstream pressure opposing RV ejection. The Vt at which this impact on the right ventricle becomes hemodynamically evident is not well established. Objectives To determine the magnitude of RV afterload and prevalence of significant non–zone 3 conditions during inspiration across the range of Vt currently prescribed in clinical practice. Methods In postoperative passively ventilated cardiac surgery patients, we measured right atrial, right ventricle, pulmonary artery, pulmonary artery occlusion pressure, plateau pressure, and esophageal pressure during short periods of controlled ventilation, with Vt increments ranging between 2 and 12 ml/kg predicted body weight (PBW). The inspiratory increase in RV afterload was evaluated hemodynamically and echocardiographically. The prevalence of non–zone 3 conditions was determined using two definitions based on changes in esophageal pressure, pulmonary artery occlusion pressure, and plateau pressure. Measurements and Main Results Fifty-one patients were studied. There was a linear relationship between Vt, driving pressure, transpulmonary pressure, and the inspiratory increase in the RV isovolumetric contraction pressure. Echocardiographically, increasing Vt was associated with a greater inspiratory increase in markers of afterload and a decrease in stroke volume. Non–zone 3 conditions were present in >50% of subjects at a Vt ⩾ 6 ml/kg PBW. Conclusions In the Vt range currently prescribed, RV afterload increases with increasing Vt. A mechanical ventilation strategy that limits Vt and driving pressure is cardioprotective.

Topics & Concepts

MedicineAfterloadCardiologyInternal medicineMechanical ventilationTranspulmonary pressurePulmonary arteryVentricleAnesthesiaStroke volumeIsovolumetric contractionOcclusionCardiac outputCardiac cycleVentilation (architecture)Central venous pressureLeft pulmonary arteryArtificial ventilationHemodynamicsVentricular pressureMechanical Circulatory Support DevicesRespiratory Support and MechanismsHemodynamic Monitoring and Therapy
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