Human Umbilical-Cord-Derived Mesenchymal Stem Cell Therapy in Acute Lung Injury
Acute Lung InjuryAcute Respiratory Distress SyndromePhase I-II Clinical Trial - Safety and efficacy of umbilical-cord-derived mesenchymal stem cell (UC-MSC) in patients with Acute Lung Injury ,open label, controlled prospective study.
Early Spontaneous Breathing in Acute Respiratory Distress Syndrome
Acute Respiratory Distress SyndromeThe care of acute respiratory distress syndrome (ARDS) has been significantly improved by learning from experimental and physiological research works and by a series of randomized controlled trials. The mortality of this syndrome remains however high. Numerous experimental and clinical works demonstrated that a ventilatory mode authorizing the patient to make, from the acute phase, spontaneous breathing cycles superimposed on assistance delivered by the ventilator (BIPAP-APRV mode) allowed to improve gas exchanges and hemodynamic tolerance of the ventilation while reducing the need for sedative drugs. This ventilatory mode could also reduce the risk of diaphragmatic dysfunction induced by ventilation. Consequently, our hypothesis is that this ventilatory mode could allow a reduction of mortality in ARDS patients. The aim of this multicenter, prospective, randomized, controlled, open study is to compare the effects of two ventilatory strategies on the mortality of ARDS patients and placed under mechanical ventilation.
Adipose-derived Mesenchymal Stem Cells in Acute Respiratory Distress Syndrome
ARDSCurrently, there is no proven effective pharmacologic treatment available for patients with the acute respiratory distress syndrome (ARDS). Mesenchymal stem cells have been shown to be effective in treating several inflammatory diseases. The main purpose of this study is to assess the safety of allogeneic adipose-derived mesenchymal stem cells in patients with ARDS.
Effects of Neuromuscular Blocking Agents (NMBA) on the Alteration of Transpulmonary Pressures at...
Acute Respiratory Distress SyndromeMortality in Acute Respiratory Distress Syndrome is high (40 to 60 %). Protective mechanical ventilation, until 2010, was the cornerstone of the ARDS therapeutic strategies. Recently, a prospective multicenter study demonstrates that a 48h continuous infusion of neuromuscular blocking agents (NMBA) have a positive impact on mortality of ARDS patients. (Papazian et al. ACURASYS Study. NEJM 2010; 363:1107-16). The mechanisms through which NMBAs could improve survival remain speculative. They are as follows: reduction of the consumption of oxygen linked to ventilatory workload; increase of chest wall compliance improving mechanical ventilation during ARDS and better adaptation to the protective ventilation strategy; anti-inflammatory effect contributing to a reduction in pulmonary inflammation and improvement in oxygenation, reduction of the variations of transpulmonary pressure (TPP) by the way of better synchronisation between patient and the ventilator. The use of NMBA could also reduce the ventilator induced lung injury by a better control of TPP.
High Flow Nasal Cannulas in Children
Acute Respiratory FailureNon-invasive Continuous Positive Airway Pressure (nCPAP) is widely recognized as an efficient respiratory support in infants with mild to moderate Acute Hypoxemic Respiratory Failure (AHRF). Its application results in alveolar recruitment, inflation of collapsed alveoli, and reduction of intrapulmonary shunt. nCPAP is traditionally delivered with nasal prongs, nasal/facial mask. CPAP by helmet was introduced more recently in the clinical practice. The helmet circuit was described in details in previously published studies. From a physiological point of view the helmet circuit could be considered the best system to deliver CPAP because of the following: 1) it is characterized by the lowest amount of leaks around the interface and mouth opening 2) airways are free from potentially obstructing devices (cannula) thus the resistance is minimized and 3) theoretically the pressure is more stable minimizing the leaks 4) it is comfortable and usually sedation is not needed. High Flow Nasal Cannula (HFNC) is increasing in use both in adults and pediatric population. HFNC could result in several clinical benefits by reducing inspiratory effort and work of breathing, increasing end-expiratory volume and CO2 wash-out for upper airways and creating a CPAP effects of 2-3 cmH2Oin the upper airways. This CPAP effect combined with an increase in CO2 wash-out and optimal airways humidification could decrease the respiratory work of breathing and improve gas exchange. However little is known about the optimal flow rate setting to improve the respiratory mechanics and gas exchange. Recent studies have reported that HFNC in nonintubated children improves oxygenation, reduces the respiratory drive and prevent reintubation in high patient risk. However all these physiological effects during HFNC therapy are only speculative. To address the question on the more efficient devices to support the child in the early phase of mild to moderate AHRF, the Authors designed a physiological randomized crossover study aimed at measuring the physiological effects of HFNC 2 and 3 l/Kg and helmet CPAP on the work of breathing (estimated by the esophageal Pressure Time Product, PTPes) in pediatric AHRF.
Does The Surfactant Administration by Aerosolization Effective?
Respiratory Distress SyndromeSurfactant Administration by AerosolizationThe present study was designed to evaluate, in premature babies with RDS breathing spontaneously, the efficacy of combined treatment with nasal continuous positive airway pressure (CPAP) and aerosolized surfactant. The first objective of investigators is to assess the safety of surfactant nebulization in this clinical situation, and to find out whether treatment with aerosolized surfactant would reduce the need for mechanical ventilation. And other aim suggest that aerosolized dates compared with dates of INSURE (intubation-surfactant-extubation) and minimally invasive surfactant therapy (MIST) method.
Efficacy of High Velocity Nasal Insufflation
Acute Respiratory FailureDiaphragmatic Function1 moreThe purpose of this study is to assess the effect of HFNC on esophageal pressure and diaphragmatic function in patients with acute respiratory failure
Efficacy of FES Cycling After a Severe Form of COVID-19
Covid19Ventilators2 moreThe severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) causing the coronavirus disease 2019 (COVID-19) affect at late march 2021 more than 127 millions of persons worldwide (including more than 4.5 millions in France, according to John Hopkins University https://coronavirus.jhu.edu/map.html, consulted 2021/3/25). Among these persons, 17% of the confirmed cases the COVID-19 develop an acute respiratory distress syndrome (ARDS) (Chen et al., 2020), requiring an hospitalization in intensive care unit with mechanical ventilation for prolonged periods (in median up to 21 days whereas 3.3 is the usual mean length of stay). This prolonged period of inactivity causes dramatical muscles and cardio-respiratory losses. These patients experience a dramatical decrease in the physical ability which is reinforce by the protective isolation measures and containment to prevent the further spread of the virus. Rehabilitation of patients with a severe form of the COVID-19 faced new challenges due to the novelty of the disease and protective isolation measures to prevent the further spread of the virus. Rehabilitation target a recovery of the cardio-respiratory, muscle deficits and improvement in activity. Functional electrical stimulation (FES) is one innovative technique, among other. FES have been shown as effective to improve the respiratory function in patients with a severe chronic obstructive pulmonary disease (Acheche et al., 2020; Maddocks et al., 2016), reduce the muscle loss due to zero gravity in space for astronauts (Maffiuletti et al., 2019), or increase strength in persons with incomplete spinal cord injury (de Freitas et al., 2018). FES has been recently delivered during cycling to restore pedaling movements with an adequate rhythm of muscle contraction. To date, FES cycling has been successfully administered in patients with spinal cord injury, and has been shown to be more effective in patient with severe COPD for improving the exercising intensity; reducing fatigue and improving quality of life in persons with multiple sclerosis (Backus et al., 2020). In a pilot study, we shown that 4 week of physical therapy incluing FES cycling resulted in a fasten recovery of active postures as compared to physical therapy including cycling alone. (Mateo et al., under revision). Therefore, we hypothesize that a 4-week period of rehabilitation based on physical therapy with FES cycling would result in a significantly increase of activity profile (decrease in inactive posture duration) in patient with a severe form of COVID-19 (i.e., with an ARDS requiring mechanical ventilation).
Ultraprotective Ventilation Without Extracorporeal Circulation During COVID 19 Pneumonia
Acute Respiratory Distress SyndromeCOVID192 moreMortality of COVID-19 pneumonia with acute respiratory distress syndrome (ARDS) is extremely high in preliminary reports amounting to 50-60%. Duration of mechanical ventilation in these patients appears to exceed standard duration of mechanical ventilation in non-COVID-19 ARDS patients, suggesting that COVID-19 patients may be particularly at risk for ventilator-induced lung injury. Treatment of COVID-19 ARDS patients is to date mainly supportive with protective mechanical ventilation (ventilation with low tidal volume (VT) i.e. 6 ml/kg of predicted body weight (PBW) and plateau pressure control below 30 cm H2O). Mechanical ventilation with VT reduction below 6 ml/kg PBW in ARDS may reduce alveolar strain, driving pressure and hence ventilator-induced lung injury. Investigators recently performed a multicenter pilot study on 34 moderately severe to severe ARDS patients. This study demonstrated that ultraprotective ventilation with ultra-low VT (≤4.2 ml/kg PBW) without extracorporeal circulation may be applied in approximately 2/3 of the patients, with a 4 cmH2O median reduction in driving pressure, at the price of transient episodes of severe acidosis in approximately 1/3 of the patients. Investigators hypothesized that ultraprotective ventilation without extracorporeal circulation may reduce the mortality at day-90 and increase the number of days free from mechanical ventilation (VFD) at day-60, as compared to protective ventilation.
Helmet vs Face Mask in Patients With Acute Respiratory Distress Syndrome
Acute Respiratory Distress SyndromeNoninvasive Ventilation2 moreThe objective of this study is to evaluate the efficacy of noninvasive ventilation with helmet in reducing endotracheal intubation rates in comparison with Noninvasive Ventilation (NIV) facemask among patients with Acute Respiratory Distress Syndrome (ARDS)