At a glance
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Effect of Airway Pressure Release Ventilation vs. Low Tidal Volume Ventilation on Right Heart Function in Acute Respiratory Distress Syndrome Patients: a Single-center Randomized Controlled Study
In Brief
A clinical study evaluating Airway pressure release ventilation and low tidal volume for Right Heart Failure and 2 related conditions. Completed, enrolled 60 participants across 1 site.
Detailed Summary
Acute Respiratory Distress Syndrome (ARDS) is often complicated by Right Ventricular Dysfunction (RVD), and the incidence can be as high as 64%. The mechanism includes pulmonary vascular dysfunction and right heart systolic dysfunction. Pulmonary vascular dysfunction includes acute vascular inflammation, pulmonary vascular edema, thrombosis and pulmonary vascular remodeling. Alveolar collapse and over distension can also lead to increased pulmonary vascular resistance, Preventing the development of acute cor pulmonale in patients with acute respiratory distress. ARDS patients with RVD have a worse prognosis and a significantly increased risk of death, which is an independent risk factor for death in ARDS patients. Therefore, implementing a right heart-protective mechanical ventilation strategy may reduce the incidence of RVD. APRV is an inverse mechanical ventilation mode with transient pressure release under continuous positive airway pressure, which can effectively improve oxygenation and reduce ventilator-associated lung injury. However, its effect on right ventricular function is still controversial. Low tidal volume (LTV) is a mechanical ventilation strategy widely used in ARDS patients. Meta-analysis results showed that compared with LTV, APRV improved oxygenation more significantly, reduced the time of mechanical ventilation, and even had a tendency to improve the mortality of ARDS patients However, randomized controlled studies have shown that compared with LTV, APRV improves oxygenation more significantly and also increases the mean airway pressure. Therefore, some scholars speculate that APRV may increase the intrathoracic pressure, pulmonary circulatory resistance, and the risk of right heart dysfunction but this speculation is not supported by clinical research evidence. In addition, APRV may improve right ventricular function by correcting hypoxia and hypercapnia, promoting lung recruitment and reducing pulmonary circulation resistance. Therefore, it is very important to clarify this effect for whether APRV can be safely used and popularized in clinic.we aim to conduct a single-center randomized controlled study to further compare the effects of APRV and LTV on right ventricular function in patients with ARDS, pulmonary circulatory resistance (PVR) right ventricular-pulmonary artery coupling (RV-PA coupling), and pulmonary vascular resistance (PVR).
Study Details
Timeline
Interventions
ventilator parameters were set according to the study protocol, P high: Tidal volume (VT) was set at 6ml/kg of ideal body weight, and plateau pressure (Pplat) was measured. Initial Phigh was set at Pplat, usually 20-32 cmH2O. The APRV end-expiratory flow rate was set at 75% of the peak expiratory flow rate.
The ARDSnet method was used for LTV mechanical ventilation, and the tidal volume was set according to 4-8ml/kg, so that the Pplat was \<30cmH2O