Telmisartan in Respiratory Failure Due to COVID-19
COVID-19Respiratory Insufficiency3 moreRationale: The renin-angiotensin-aldosterone system (RAAS) dysregulation may play a central role in the pathophysiology of Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) infection associated acute lung injury (ALI) / acute respiratory distress syndrome (ARDS). In the RAAS, Angiotensin I (Ang I) is converted to angiotensin II (Ang II) by angiotensin converting enzyme (ACE). Ang II mediates vasoconstrictive, pro-inflammatory and pro-oxidative effects through agonism at Ang II type 1 receptor (AT1R). ACE2 converts Ang II to angiotensin 1-7 (Ang1-7), which finally binds to Mas receptor (MasR) and mediates many beneficial actions, including vasodilation and anti-inflammatory, anti-oxidant and antiapoptotic effects. ACE2, a homologue of ACE, is an integral cell membrane protein with a catalytic domain on the extracellular surface exposed to vasoactive peptides. SARS-CoV-2 penetrates the cell through ACE2, and the increase of this receptor (due to the use of ACE inhibitors or angiotensin receptor blockers [ARBs]) may facilitate SARS-CoV-2 infection, which might increase the risk of developing severe and fatal SARS-CoV-2 infection. However, through upregulation of ACE2, ACE inhibitors/ARBs can exert anti-inflammatory and antioxidative effects, which may be beneficial in preventing ALI and ARDS. Objective: To evaluate the effectiveness and safety of telmisartan in respiratory failure due to COVID-19. Study design: This is an open label, phase 2 clinical trial. Study population: Adult hospitalized SARS-CoV-2-infected patients (n=60). Intervention: The active-treatment arm will receive telmisartan 40 mg daily and the control arm will receive standard care. Treatment duration will be 14 days or up to hospital discharge <14 days or occurrence of the primary endpoint if <14 days. Main study endpoint: The primary study endpoint is the occurrence within 14 days of randomization of either: 1) Mechanical ventilation or 2) Death.
Effectiveness of an Exercise Re-training Program on Dyspnea in Patients After Acute Respiratory...
DyspneaDyspnea is defined by a subjective sensation of respiratory discomfort, the intensity of which varies according to the terrain, the anamnesis and the cause. Resuscitation is associated with many causes of dyspnea, including initial distress, mechanical ventilation, or after-effects following the pathology and its management. Respiratory distress is the most severe form of impaired lung function. It is the first cause of hospitalization in intensive care. This distress, indicative of the failure of the respiratory system, is always severe and potentially fatal. It therefore constitutes an absolute therapeutic emergency. Dyspnea is often the revealing symptom of the condition and the urgency surrounding its management is an additional factor of concern for the patient. As a result, dyspnea is a pejorative element associated with severity or even death.
Trial to Assess the Safety and Tolerability of Lucinactant for Inhalation in Premature Neonates...
Respiratory Distress SyndromeThe primary objective of this study is to evaluate the safety and tolerability of aerosolized surfactant, specifically lucinactant for inhalation, administered in escalating inhaled doses to preterm neonates 29 to 34 weeks gestational age who are receiving nasal continuous positive airway pressure (nCPAP) for respiratory distress syndrome (RDS), compared to neonates receiving nCPAP alone.
Comparison Between Infant Flow SiPAP and Noninvasive NAVA in the Neonatal Intensive Care Unit
Respiratory Distress SyndromeWhen babies are born premature, they often need help with their breathing. The equipment used to help them breathe is not very comfortable and they sometimes need to be put on a specialized breathing machine with a tube into their lungs. The breathing machine or ventilator can be damaging to the newborn's lungs and more damage can occur the longer the newborn stays on a ventilator leading to chronic lung disease later in their lives. A new device called neurally adjusted ventilatory assist or NAVA is available that the investigators believe may be more comfortable for the premature newborn and may help the baby come off breathing support sooner. When using this device, babies may not need to be put on a ventilator and can avoid the lung damage associated with the breathing tube and the ventilator. The objective of this pilot study is to compare this new breathing device called NAVA, to the equipment that is currently being used, called SiPAP, to support premature newborn's breathing after birth without a breathing tube. The investigators hope to show that with this new technology, premature newborns that are having a difficult time breathing, will come off breathing support sooner compared to the breathing machines that are currently being used. The hypothesis for this proposed study is that improved synchrony with noninvasive NAVA will decrease time spent on noninvasive ventilation and avoid intubation.
Effect of Variable PSV in Acute Lung Injury: Part I and Part II
Acute Lung Injury (ALI)Acute Distress Respiratory Syndrome (ARDS)Noisy Pressure Support Ventilation (noisy-PSV) would lead to improved lung function, while preserving respiratory muscle unloading. Basically, noisy PSV differs from other assisted mechanical ventilation modes that may also increase the variability of the respiratory pattern (e.g. proportional assist ventilation) by the fact that the variability does not depend on changes in the patient's inspiratory efforts. The aim of this study is to evaluate the optimal variability for noisy PSV in patients with ALI based on its effects on respiratory mechanics, breathing comfort, gas exchange, and hemodynamics. The investigators hypothesize that noise in pressure support leads to variations in VT that are able to improve lung function and that physiologic variables respond differently to the degree of variability in pressure support
Efficacy Study of Dexamethasone to Treat the Acute Respiratory Distress Syndrome
Acute Respiratory Distress SyndromeBACKGROUND: Currently, there is no proven pharmacologic treatment for patients with the acute respiratory distress syndrome (ARDS). Great interest remains in the use of corticosteroids for the salvage of patients with severe acute lung injury in the early phase of their disease process, a situation that that has not been evaluated in most published trials. Dexamethasone has never been evaluated in ARDS in a randomized controlled fashion. HYPOTHESIS AND OBJECTIVES: The investigators hypothesize that adjunctive treatment with intravenous dexamethasone of patients with established ARDS might change the pulmonary and systemic inflammatory response and thereby will increase the number of ventilator-free days and will decrease the extremely high overall mortality. Our goal is to examine the effects of dexamethasone on length of duration of mechanical ventilation (assessed by number of ventilator-free days) and on mortality, in patients admitted into a network of Spanish intensive care units (ICUs) who still meet ARDS criteria at 24 hours after ARDS onset.
Non-Invasive Ventilation Via a Helmet Device for Patients Respiratory Failure
Acute Respiratory Distress SyndromeShock2 moreThe objective of our study is to evaluate the efficacy of helmet ventilation as compared with Face mask in patients with respiratory failure.
Premedication for Non-Emergency Endotracheal Intubation In the NICU
Respiratory Distress SyndromeThose infants who received the muscle relaxation in combination with the vagolytic (reduce vagus nerve impulses) and pain medication will have reduced time to successful intubation (placement of tube into the lungs), a decrease in the number of attempts, and better intubation conditions reported by the practitioner. The objectives of the study include: 1.) Does the medication protocol outlined in this study provide optimal intubation conditions? (i.e.good jaw relaxation, open and immobile vocal cords and suppression of gag reflex) 2.) Does the addition of a muscle relaxant prior to intubation contribute to less attempts and achieving successful intubation as opposed to neonates who do not receive the muscle relaxant.
Effects of SEvoflurane on Gas Exchange and Inflammation in Patients With ARDS (SEGA Study)
Acute Respiratory Distress SyndromeNumerous trials support the efficacy and safety of volatile anesthetic agents, namely inhalation of sevoflurane through dedicated devices, for the sedation of ICU patients. Several preclinical studies have shown that sevoflurane inhalation improves gas exchange and decreases pulmonary and systemic inflammation in experimental models of acute respiratory distress syndrome (ARDS). The purpose of our prospective monocentric, randomized, controlled trial is to evaluate the effects of an early 48-hour sevoflurane inhalation on gas exchange and inflammation in patients with ARDS.
Exogenous Surfactant in Very Preterm Neonates in Prevention of Bronchopulmonary Dysplasia
InfantPremature4 moreAdvances in perinatal care have made it possible to improve the survival of the most immature neonates, but at the cost of an increase in the population at risk of developing bronchopulmonary dysplasia (BPD). Measures that have attempted to limit the development of BPD are not always effective, or related to major side effects. The physiopathological factors that are identified in BPD should, in theory, respond to surfactant. Therefore, the use of an exogenous surfactant in neonates presenting with pulmonary disease requiring mechanical ventilation, leading to a significant risk of BPD, should allow earlier extubation and thus promote pulmonary healing and growth.