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90 active trials for ARDS

Low-flow Extracorporeal Carbon Dioxide Removal in COVID-19-associated Acute Respiratory Distress Syndrome

The study aims to investigate the efficacy of extracorporeal CO2 removal for correction of hypercapnia in coronavirus disease 19 (COVID-19)-associated acute respiratory distress syndrome

Start: May 2020

One-year Outcomes in Survivors of the Severe COVID-19 Pneumonia (CO-Qo-ICU)

Pneumonia caused by infection at SARS-CoV2 may be complicated by an acute respiratory detress syndrome need to take care in intensive care unit and can lead to mechanical ventilation. COVID-19 is a pandemic disease and lot of patients will survive of severe pneumoniae at SARS-CoV2 treat in ICU. At this time, there is no data about functional prognosis at long term. This aim of this study is to evaluate the recovery of quality of life, respiratory function, neuromuscular function at long term and incidence of post-traumatic stress disorder. Patients will follow during 1year after out of ICU with 3 consultations at 3month, 6month and 12month. At each consultation patients will be evaluated about respiratory function, effort tolerance via 6minutes walking test, psychologic function with IES-R and HAD score and quality of life with SF36. The hypothesis is that patients who survived of ARDS post infection at SARS-CoV2 have persistent functional limitation and alteration of quality of life one year after being discharged from the ICU.

Start: June 2020

Effect of Bronchoscopy on Sepsis Due to ARDS

to evaluate the effect of use of bronchoscopy in the course of sepsis, weaning from the ventilator, duration of ICU stays and mortality rate in septic patients with ARDS due to VAP.

Start: July 2020

Postural Recruitment Maneuver in Patients With Acute Respiratory Distress Syndrome Due to COVID-19 Infection

The purpose of this study is to evaluate if a postural recruitment maneuver (PRM) improves the aeration and distribution of lung ventilation in patients with Acute Respiratory Distress Syndrome (ARDS) caused by COVID-19 infection; without the need to reach high airway pressures as in the standard lung recruitment maneuver and / or place the patient in prone position. This strategy could be particularly useful in the context of a major health emergency in centers with limited resources.

Start: July 2020

Effects of Sevoflurane on Extravascular Lung Water and Pulmonary Vascular Permeability in Patients With ARDS

The study will investigate the effects of inhaled sedation with sevoflurane using the AnaConDa device on extravascular lung water index (EVLWi) and the pulmonary vascular permeability index (PVPI) in patients with moderate to severe acute respiratory distress syndrome (ARDS). Improvement in oxygenation and decreases in lung inflammatory response has been demonstrated in patients with ARDS compared with intravenous sedation. However, preclinical data showing a decrease in lung edema has not been confirmed. The hypothesis is that inhaled sedation with sevoflurane reduces EVLWi and PVPI in patients with ARDS, assessed with the PiCCO device. Patients will receive either inhaled sedation (interventional group), or a sedation with propofol (control group). Both will be associated with remifentanil. Sedation will be monitored by bispectral index with a targeted value of 30-50. The primary outcome will be daily assessment of EVLWi and PVPI over time in patients sedated with sevoflurane compared to propofol. Secondary outcomes will include value of PVPI and EVLW at 48h after intubation, fluid administration, need in norepinephrine, time between cessation of sedation and trial of weaning sedation, ventilation free days, mortality at day 28, the partial pressure of arterial oxygen to fraction of inspired oxygen ratio (PaO2/FiO2), plasma and alveolar levels of cytokines (tumor necrosis factor (TNF)-?, interleukine (IL)-1?, IL-6, IL-8). These blood and alveolar samples will be done at baseline, on day 2 and on day 5. A sub-group analysis will be done in Covid-19 related ARDS. Decrease in PVPI and EVLWi with inhaled sevoflurane may be related to the decrease in lung edema in ARDS patients and may ultimately improve patient outcome.

Start: November 2020

PROne Positioning in coVID-19 Oxygeno-dependent Patients in Spontaneous Ventilation (PROVID Study)

The COVID epidemics is responsible for a huge number of death following COVID acute respiratory failure. First instance treatment includes oxygenotherapy up to 15L/min in spontaneous ventilation. However COVID infection can ultimately lead to an acute respiratory distress syndrome (ARDS) requiring mechanical ventilation in the intensive care unit (ICU). Guidelines on ARDS management are based on small ventilation volume (6 mL/kg), a pulmonary end expiratory pressure (PEEP) chosen to get the best pulmonary compliance, a plateau pressure lower than 30 cm of water and daily prone positioning when PaO2/FiO2 ratio is lower than 150. In ventilated ARDS patients, prone positioning has shown survival improvement. Though they applied this optimized management of ARDS patients, Chinese intensivists have recently reported mortality rate higher than 50% in ARDS COVID patients requiring intubation and mechanical ventilation. Before being intubated and admitted to ICU, COVID patients require increasing rate of oxygen delivery. From the start of the epidemics, we have observed that an oxygenotherapy rate higher than 3L/min at the initial phase of the disease was associated with a high risk of severe acute respiratory distress (30%) The investigators hypothesize that prone positioning in patients in spontaneous ventilation (not tubed) from the stage of oxygenotherapy higher than 3L/min (to get an SpO2 of 95% or higher) would prevent respiratory worsening and the need for intubation. Prone positioning is easy to apply in patients in spontaneous ventilation since they can change position by themselves.

Start: June 2020

Investigating the Involvement of ACE and Angiotensinogen Genes' Polymorphism Along With Other Thrombophilic Genotypes in Severe Forms of COVID-19 With/Without Thrombotic Events

An estimated 22% of the global population is at an increased risk of a severe form of COVID-19, while one in four coronavirus patients admitted to intensive care unit will develop a pulmonary embolism. A major public health question remains to be investigated: why COVID-19 is mild for some, critically severe for others and why only a percentage of COVID-19 patients develop thrombosis, despite the disease's proven hypercoagulable state? Patients' intrinsic characteristics might be responsible for the deep variety of disease forms. Our study aims to assess the validity of the hypothesis according to which underlining genetic variations might be responsible for different degrees of severity and thrombotic events risks in the novel coronavirus disease. Moreover, we suspect that prothrombotic genotypes occuring in the genes that encode angiotensin-converting enzyme (ACE-DEL/INS) and angiotensinogen (AGT M235T) are involved in the unpredictable evolution of COVID-19, both in terms of severity and thrombotic events, due to the strong interactions of SARS-CoV-2 with the renin-angiotensin-aldosterone system (RAAS). Therefore, we also aim to assess the validity of the theory according to which there is a pre-existing atypical modulation of RAAS in COVID-19 patients that develop severe forms and/or thrombosis. Our hypothesis is based on various observations. Firstly, there is a substantial similarity with a reasonably related condition such as sepsis, for which there is a validated theory stating that thrombophilic mutations affect patients' clinical response. Secondly, racial and ethnic genetic differences are responsible for significant dissimilar thrombotic risks among various nations. Thirdly, an increase in stroke incidence has been reported in young patients with COVID-19, without essential thrombosis risk factors, favoring the idea that a genetic predisposition could contribute to increase the thrombotic and thromboembolic risk. Fourthly, the plasminogen activator inhibitor (PAI)-1 4G/5G inherited mutation was found to be responsible for a thrombotic state causing post-SARS osteonecrosis.

Start: August 2020

Prone Positioning and High-flow Nasal Cannula in COVID-19 Induced ARDS

Prone position (PP) has been proved to be effective in severe ARDS patients. On the other hand, High flow nasal cannula (HFNC) may prevent intubation in hypoxemic Acute respiratory failure (ARF) patients. Our hypothesis is that the combination of PP and HFNC in patients with COVID19 induced ARDS may decrease the need of mechanical ventilation. Primary outcome: Therapeutic failure within 28 days of randomization (death or intubation). Secondary outcomes: to analyze PP feasibility and safety in HFNC patients and to analyze effectiveness in terms of oxygenation. Methods: multicentric randomized study including patients with COVID19 induced ARDS supported with HFNC. Experimental group will received HFNC and PP whereas observation group will received standard care. Optimization of non-invasive respiratory management of COVID19 induced ARDS patients may decrease the need of invasive mechanical ventilation and subsequently ICU and hospital length of stay.

Start: May 2020

Effects of End-expiratory Positive Pressure Optimization in Intubated Patients With Healthy Lung or Acute Respiratory Distress Syndrome

PEEP titration is a recommended during invasive mechanical ventilation of ICU patients. However, little is known about the right way to conduct this titration. PEEP titration can be conducted by a stepwise increase in PEEP level, or following an ARM and a consecutive stepwise decrease in PEEP level. Those 2 methods will be explored in intubated ICU patients either with healthy lung or ARDS lungs. Physiological exploration will include end-expiratory lung volume measurements, driving pressure, compliance and electro-impedance tomography at each PEEP level.

Start: September 2019

Extracellular Vesicle Infusion Therapy for Severe COVID-19

To evaluate the safety and efficacy of intravenous administration of bone marrow derived extracellular vesicles, ExoFlo, versus placebo as treatment for moderate-to-severe Acute Respiratory Distress Syndrome (ARDS) in patients with severe COVID-19.

Start: September 2020

Follow-up of Critical COVID-19 Patients

The study will follow COVID-19 patients who required intensive care after 3-6 months and one year after discharge from the ICU with functional level as well as organ function to assess recovery after COVID-19. Blood and urine will be collected for biobanking.

Start: June 2020

Assessment of Lung Recruitablity of Acute Respiratory Distress Syndrome With SARS-CoV-2 Pneumonia by Electrical Impedance Tomography

Novel coronavirus (SARS-CoV-2: severe acute respiratory coronavirus 2) pneumonia often develop the acute respiratory distress syndrome (ARDS). Lung protective ventilation strategy consisting of low tidal volume and high positive end-expiratory pressure (PEEP) is recommended. However, it is not clear whether injured lungs from SARS-CoV-2 pneumonia have the same mechanical properties, especially response to PEEP as common ARDS. Therefore, the investigators propose an observational study to analyze respiratory mechanics and lung recruitablity using EIT (electrical impedance tomography) in patients with ARDS due to SARS-CoV-2 pneumonia.

Start: May 2020

Safety and Preliminary Efficacy of Sequential Multiple Ascending Doses of Solnatide to Treat Pulmonary Permeability Oedema in Patients With Moderate-to-severe ARDS

This phase IIb, randomized, placebo-controlled, double-blind, dose escalation study will assess the local and systemic safety of 7 days orally inhaled sequential multiple ascending doses of solnatide in patients with pulmonary permeability oedema and moderate-to-severe ARDS and review potential efficacy endpoints for a future phase III pivotal trial.

Start: May 2018

Stellate Ganglion Blockade in COVID-19 Positive Patients

This study will establish the safety and efficacy of using stellate ganglion blocks in patients with ARDS due to COVID-19 disease.

Start: July 2020

Cerebrovascular Hemodynamics in Patients With ARDS.

The acute respiratory distress syndrome (ARDS) is a life-threatening disease with functional impairment of the lung. It is characterized by an excessive inflammatory response of lung tissue, capillaries, and blood vessels and is associated with high mortality. Patients who survive the acute phase of this critical disease often suffer from long-term physical, psychological, and mental sequelae, as well as persistent cognitive deficits. In healthy individuals, autoregulatory mechanisms of the intracranial blood vessels keep blood supply to the brain independent of fluctuations in systemic blood pressure. In the case of a serious illness, these mechanisms of autoregulation may be impaired, which may favor cerebral hypoperfusion. Impairment of cerebrovascular hemodynamics can lead to neuronal damage in short and long term. The aim of this project is to investigate cerebrovascular autoregulation in adult patients with ARDS and to evaluate the cognitive outcome at 3, 6 and 12 months after discharge from the intensive care unit.

Start: December 2018

Impact of Neck Inspiratory Muscle Activation During Sleep in ICU Patients After a COVID 19 ARDS

Most patients in intensive care units (ICUs) experience severe sleep disruption. Sleep disruption and sleep alteration may have an influence on the ability to breathe spontaneously. But, the cause of altered sleep remains unknown. Previous studies have shown that decreasing nocturnal respiratory muscle activity through mechanical ventilation might improve sleep quality. Nocturnal respiratory muscle activity may be one of the potential factor which contribute to alter sleep in the ICU. Therefore, the aim of this study is to analyse the presence of NIM activation during the night and it's consequence in an ICU population with the same pathology (COVID 19 ARDS).

Start: April 2020

Microbiota in COVID-19 Patients for Future Therapeutic and Preventive Approaches

In light of the rapidly emerging pandemic of SARS-CoV-2 infections, the global population and health care systems are facing unprecedented challenges through the combination of transmission and the potential for severe disease. Acute respiratory distress syndrome (ARDS) has been found with unusual clinical features dominated by substantial alveolar fluid load. It is unknown whether this is primarily caused by endothelial dysfunction leading to capillary leakage or direct virus induced damage. This knowledge gap is significant because the initial balance between fluid management and circulatory support appear to be decisive. On progression of the disease, bacterial superinfection facilitated by inflammation and virus related damage, has been identified as the main factor for patient outcome, but the role of the host versus the environment microbiome remains unclear. The overarching aim of the present research proposal is to improve therapeutic strategies in critically ill patients with ARDS due to SARS-CoV-2 infection by advancing the pathophysiological understanding of this novel disease. This research thus focuses on inflammation, microcirculatory dysfunction and superinfection, aiming to elucidate risk factors (RF) for the development of severe ARDS in SARS-CoV-2 infected patients and contribute to the rationale for therapeutic strategies. The hypotheses are that (I) the primary damage to the lung in SARS-CoV-2 ARDS is mediated through an exaggerated pro-inflammatory response causing primary endothelial dysfunction, and subsequently acting two-fold on the degradation of the lung parenchyma - through the primary cytokine response, and through recruitment of the inflammatory-monocyte-lymphocyte-neutrophil axis. The pronounced inflammation and primary damage to the lung disrupts the pulmonary microbiome, leading secondarily to pulmonary superinfections. (II) Pulmonary bacterial superinfections are a significant cause of morbidity and mortality in COVID-19 patients. Pathogen colonization main Risk Factor for lower respiratory tract infections. To establish colonization, pathogens have to interact with the local microbiota (a.k.a. microbiome) and certain microbiome profiles will be more resistant to pathogen invasion. Finally, (III) Handheld devices used in clinical routine are a potential reservoir and carrier of both, SARS-CoV-2, as well as bacteria causing nosocomial pneumonia.

Start: April 2020

Monitoring COVID-19 Patients' Lung Fluid Using Impedance Technique

COVID 19 is a novel and severe disease. One of the problems is that the virus disturbs the lungs and cause water accumulation in lungs alveolus (ARDS). Today, a chest X-ray is the only practical way to check the degree of lung accumulation. However, X-Ray has many limitations and disadvantages. Lung impedance technology allows simple lung fluid monitoring, and found to be effective in HF patients who suffer from a similar problem. The study's aim is to establish a correlation between lung fluid assessed by impedance technique and x-ray examinations. To find a correlation between lung fluid assessment by impedance and clinical parameters of COVID 19 patients.

Start: April 2020

Pre-exposure Prophylaxis for SARS-Coronavirus-2

Objective: To determine if pre-exposure prophylaxis with hydroxychloroquine is effective for the prevention of COVID-19 disease.

Start: April 2020

Prone Positioning and Spontaneous Breathing

Spontaneous breathing during mechanical ventilation has been recommended in patients with ARDS and is currently used. in part because oxygenation is better and there is a lower risk of diaphragm dysfunction due to disuse. The other approach to minimizing lung injury from spontaneous effort is the use of neuromuscular blockade; an early and short term (48 hours) of neuromuscular blockade in patients with severe ARDS has been shown to decrease inflammation and to improve survival. The investigators propose a pilot study to test the feasibility and the physiological effects of allowing spontaneous breathing in the prone position in patients with ARDS.

Start: March 2019