Clinical Trials Logo

Clinical Trial Summary

Respiratory failure associated with Covid-19 can be expressed as acute respiratory distress syndrome (ARDS), which is an acute inflammatory lung injury,which generally requires the use of invasive mechanical ventilation (MV). There are inconclusive results regarding the potential lung recruitment in ARDS. At the lung level, the relationship between lung volume and pressure can be graphed through a pressure/volume (P/V) curve. In this curve, hysteresis (H) can be evaluated, which is the amount of energy generated during inspiration that is not recovered during expiration. H is related to recruitment, assuming that the greater H the greater the alveolar recruitment. For this reason, the objective of this study is the measurement of H as a way to assess the lung recruitment capacity, in patients with ARDS and in patients with Covid-19 who develop ARDS (ARDS- Covid)


Clinical Trial Description

During the first 7 days of the patient on mechanical ventilation (MV), measurements will be taken. For this, the patient will be in the supine position (DS) or the prone position (DP). The patient will be on a dose of analgesics, under sedation and muscle relaxation and will not present any respiratory stimulus. Data from MV will also be recorded (prior to recruitment assessment): tidal volume (TV) in milliliters (ml), respiratory rate (RR) in a minute, fraction of inspired oxygen (FiO2), positive end-expiratory pressure (PEEP), in centimeters of water (cmH2O), plateau pressure (Pplat, measured after an end-inspiratory pause, cmH2O), mean airway pressure (PM, cmH2O), minute volume (calculated as the product of RR and TV) in milliliters per minute, ∆P (calculated as Pplat minus PEEP, cmH2O), static compliance (calculated as TV divided by ∆P, ml/cmH2O). Arterial blood gases will also be considered. The proposed recruitment assessment will be the measurement of pulmonary hysteresis ratio. For measurements, a ventilator (Neumovent GraphNet Advance-TS, Córdoba Argentina) will be used. Additionally, a dedicated software connected to a computer will be used to perfThe evaluation of pressure in relation to volume will also be carried out, through the pressure/volume curve (PV curve), available in the respirator. A low-flow inflation and deflation PV curve from 0 up to 40 cm H2O and from 40 down to 0 cm H2O will be performed using the automatic tool on the ventilator (P/V tool; Neumovent GraphNet Advance-ts, Córdoba Argentina). The P-V curve can be visualized immediately on the screen of the mechanical ventilator and will be taken as a method to assess lung recruitment through the hysteresis-like behavior of the respiratory system. Inflation and deflation volume data will be corrected for changes in oxygen consumption. Ratio hysteresis (RH) of the respiratory system will be measured by planimetry using SigmaPlot 12.0 software. There, through a cursor, for the measurement of hysteresis, the place where the volume was greater was drawn and the coincident pressure value was considered. Subsequently the ratio hysteresis will be calculated as the ratio between hysteresis and the product of the pressure span and the maximum volume reached (maximum hysteresis). Also, through the maximum distance between the inspiratory and expiratory limb of the curve weighted by the maximum volume, the normalized maximum distance (Vmax) is calculated. Recruitment potential will considered when there is a HR ≥ 28% and aVmax ≥ 41%. Data Analysis. Categorical variables will be presented as number and percentage, while continuous variables will be presented as mean and standard deviation or median and interquartile range, as appropriate. The Chi2 test or Fisher's exact test will be used for qualitative variables and the Student test or the Mann-Whitney U test for quantitative variables. To evaluate correlation, the Pearson or Spearman test will be used, according to the distribution of the evaluated variables. A p ≤ 0.05 will be used. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05248243
Study type Observational
Source Ramos Mejía Hospital
Contact Roberto Santa Cruz, Dr.
Phone +5492966559019
Email resc.hrrg@gmail.com
Status Recruiting
Phase
Start date March 7, 2022
Completion date March 1, 2025

See also
  Status Clinical Trial Phase
Completed NCT04384445 - Zofin (Organicell Flow) for Patients With COVID-19 Phase 1/Phase 2
Recruiting NCT05535543 - Change in the Phase III Slope of the Volumetric Capnography by Prone Positioning in Acute Respiratory Distress Syndrome
Completed NCT04695392 - Restore Resilience in Critically Ill Children N/A
Terminated NCT04972318 - Two Different Ventilatory Strategies in Acute Respiratory Distress Syndrome Due to Community-acquired Pneumonia N/A
Completed NCT04534569 - Expert Panel Statement for the Respiratory Management of COVID-19 Related Acute Respiratory Failure (C-ARF)
Completed NCT04078984 - Driving Pressure as a Predictor of Mechanical Ventilation Weaning Time on Post-ARDS Patients in Pressure Support Ventilation.
Completed NCT04451291 - Study of Decidual Stromal Cells to Treat COVID-19 Respiratory Failure N/A
Not yet recruiting NCT06254313 - The Role of Cxcr4Hi neutrOPhils in InflueNza
Not yet recruiting NCT04798716 - The Use of Exosomes for the Treatment of Acute Respiratory Distress Syndrome or Novel Coronavirus Pneumonia Caused by COVID-19 Phase 1/Phase 2
Withdrawn NCT04909879 - Study of Allogeneic Adipose-Derived Mesenchymal Stem Cells for Non-COVID-19 Acute Respiratory Distress Syndrome Phase 2
Terminated NCT02867228 - Noninvasive Estimation of Work of Breathing N/A
Not yet recruiting NCT02881385 - Effects on Respiratory Patterns and Patient-ventilator Synchrony Using Pressure Support Ventilation N/A
Completed NCT02545621 - A Role for RAGE/TXNIP/Inflammasome Axis in Alveolar Macrophage Activation During ARDS (RIAMA): a Proof-of-concept Clinical Study
Withdrawn NCT02253667 - Palliative Use of High-flow Oxygen Nasal Cannula in End-of-life Lung Disease Patients N/A
Completed NCT02232841 - Electrical Impedance Imaging of Patients on Mechanical Ventilation N/A
Withdrawn NCT01927237 - Pulmonary Vascular Effects of Respiratory Rate & Carbon Dioxide N/A
Completed NCT02889770 - Dead Space Monitoring With Volumetric Capnography in ARDS Patients N/A
Completed NCT01504893 - Very Low Tidal Volume vs Conventional Ventilatory Strategy for One-lung Ventilation in Thoracic Anesthesia N/A
Completed NCT02814994 - Respiratory System Compliance Guided VT in Moderate to Severe ARDS Patients N/A
Completed NCT01680783 - Non-Invasive Ventilation Via a Helmet Device for Patients Respiratory Failure N/A