The Effect pf Goal-directed De-escalation in ARDS on Organ Function and Mortality

Objective: To compare two de-escalation strategies guided by either extravascular lung water or global end-diastolic volume-oriented algorithms in patients with sepsis and ARDS. Design: A prospective randomized study. Setting: City Hospital #1 of Arkhangelsk, Russia, mixed ICU. Patients: Sixty patients with sepsis and ARDS were randomized to receive de-escalation fluid therapy, guided either by extravascular lung water index (EVLWI, n = 30) or global end-diastolic volume index (GEDVI, n = 30). Intervention: In case of GEDVI \> 650 mL/m2 or EVLWI \> 10 mL/kg, diuretics and/or controlled ultrafiltration were administered. The primary goal of de-escalation was to achieve the cumulative 48-hr fluid balance in the range of 0 to - 3000 mL. If GEDVI \< 650 mL/m2 or EVLWI \< 10 mL/kg, the target fluid balance was set from 0 to +3000 mL.

In all patients, investigators catheterized the internal jugular or the subclavian vein with a triple-lumen central venous catheter (Certofix, B\|Braun, Germany) and the femoral artery with a thermistor-tipped arterial catheter (5F, PV2015L20, Pulsion Medical Systems, Munich, Germany). The arterial blood pressure was recorded from a side port of the catheter. Hemodynamic monitoring was carried out using the method of transpulmonary thermodilution (PiCCO2 monitor, Pulsion Medical Systems, Germany) by a triplicate 15 mL bolus of cold (\< 8 °C) 0.9% saline solution. Mechanical ventilation (Puritan Bennett 840 and 980, Medtronic, USA) was performed according to the ARDS Network protocol, using pressure-controlled ventilation with tidal volume 6-7 ml/kg of predicted body weight, with a Ppeak not exceeding 35 cm H2O, positive end-expiratory pressure (PEEP) and a fraction of inspiratory oxygen (FiO2) levels adjusted to maintain SpO2 within a 92-97% range. The target fluid balance was achieved by continuous infusion of furosemide with an initial dose of 0.07 mcg/kg/hr and a minimal duration of 12 hrs. In case of failure to reach a negative fluid balance by means of diuretics, started controlled ultrafiltration using continuous veno-venous hemofiltration (CVVH, multiFiltrate, Fresenius Medical Care, Germany). For fluid replacement, if necessary, investigators administered balanced crystalloid solutions (Sterofundin Iso/G5, B\|Braun, Germany) with an initial infusion rate of 6-7 ml/kg/hr. Heart rate (HR), MAP, cardiac index (CI), GEDVI, EVLWI, pulmonary vascular permeability index (PVPI), central venous pressure (CVP), systemic vascular resistance index (SVRI), pulse pressure variation (PPV), and stroke volume variation (SVV) were assessed using transpulmonary thermodilution and arterial pulse contour analysis. During the study, investigators also assessed blood gases (ABL Flex 800 Radiometer, Denmark) and biochemical parameters (Random Access A-25, BioSystems, Spain). All measurements were performed at baseline, at 24 and at 48 hrs of the goal-directed de-escalation