Active clinical trials for "Respiratory Insufficiency"

Twenty per cent of the intensive care patients mechanically ventilated suffer from chronic obstructive pulmonary disease (COPD). These patients stay longer in Intensive Care which is more costly and they are more prone to nosocomial infection.In addition, they are longer bedridden and they develop muscular weakness.Prolonged inactivity results in respiratory and skeletal muscle weakness which curtails simple daily activity.The principal purpose of this study is to compare two types of muscular rehabilitation (electrical stimulation of the thigh and/or cycloergometer training) to classic passive mobilization of the leg.The second purpose is to analyse the effects of each type of rehabilitation on muscular fiber (structural and functional analysis) by muscular biopsies.Two hundred forty COPD patients admitted in the intensive care unit for acute respiratory failure will be randomized in 4: 1 fashion to receive passive mobilization of the legs(group 1, n=60), electrical stimulation of the thigh (group 2, n=60), cycloergometer training (group 3, n=60) or electrical stimulation of the thigh and cycloergometer training(group 4, n=60).The rehabilitation program will last 4 weeks with 5 sessions per week.In each group of patients, muscular biopsies will be done under local anaesthesia at the beginning and end of the rehabilitation programme and when they are discharged from the service.

This is a multicenter, randomized, double-blind, parallel group study to investigate the efficacy of pemziviptadil (PB1046) by improving the clinical outcomes in hospitalized COVID-19 patients at high risk for rapid clinical deterioration, acute respiratory distress syndrome (ARDS) and death. The study will enroll approximately 210 hospitalized COVID-19 patients who require urgent decision-making and treatment at approximately 20 centers in the United States.

COVID-19 is a respiratory illness caused by SARS-CoV-2 with a range of symptoms from mild, self-limiting respiratory tract infections to severe progressive pneumonia, multiorgan dysfunction and death. A portion of individuals with COVID-19 experience life-threatening hypoxia requiring supplemental oxygen and mechanical ventilation. Management of hypoxia in this population is complicated by contraindication of non-invasive ventilation and limitations in access to mechanical ventilation and critical care staff given the clinical burden of disease. Positional therapy is readily deployable and may ultimately be used to treat COVID-19 related respiratory failure in resources limited settings; and, it has been demonstrated to improve oxygenation and is easy to implement in the clinical setting. The overall goal of this randomized controlled trial is to establish the feasibility of performing a randomized trial using a simple, minimally invasive positional therapy approach to improve hypoxia and reduce progression to mechanical ventilation. The objectives are to examine the effectiveness and feasibility of maintaining an inclined position in patients with confirmed or suspected COVID-19 associated hypoxemic respiratory failure. The investigators hypothesize that (1) oxyhemoglobin saturation will improve with therapy, (2) participants will tolerate and adhere to the intervention, and that (3) participants who adhere to positional therapy will have reduced rates of mechanical ventilation at 72 hours. If successful, this feasibility trial will demonstrate that a simple, readily deployed nocturnal postural maneuver is well tolerated and reverses underlying defects in ventilation and oxygenation due to COVID-19. It will also inform the design of a pivotal Phase III trial with estimates of sample sizes for clinically relevant outcomes.

A phase 2/3, randomized, double blind, placebo-controlled study to evaluate the efficacy and the safety of ABX464 in treating inflammation and preventing acute respiratory failure in patients aged ≥65 and patients aged ≥18 with at least one additional risk factor who are infected with SARS-CoV-2 (the MiR-AGE study).

The goal of this study to evaluate whether eliminating the use of non-depolarizing neuromuscular blocking agents (NMBA) for maintenance of general anesthesia reduces postoperative pulmonary complications in higher risk patients.

BACKGROUND AND SIGNIFICANCE Entrainment-based ventilation is a new mode of mechanical ventilation based on the classical physics theory of mutual entrainment between coupled oscillators. Typically, the entrained inspiratory activity may precede or lag behind machine inflation depending on whether spontaneous respiratory frequency is higher or lower than the ventilator frequency. HYPOTHESIS The investigators anticipate that the results of the study will help to improve the interaction of patients with the mechanical ventilator thereby minimizing the risks of mechanical ventilation in future. The investigators believe the potential benefits significantly outweigh the potential risks. RESEARCH STUDY DESIGN AND METHODS This is a prospective study and single site. Twenty mechanically ventilated patients, stable on their current vent settings and are capable of triggering the ventilator in the SICU, MICU, CCU and Cardiac and Neuro Surgery ICUs at BWH will be recruited. After obtaining informed consent a respiratory real-time data monitor will be placed between the artificial airway and the Y piece of the ventilator circuit. Baseline mechanical ventilation data with conventional pressure-limited assist/control ventilation mode will then be collected for a 4-hour period. The patients will then be transitioned to pressure-limited entrainment-based ventilation for a 4-hour period. Baseline ventilation monitoring will be carried out either immediately preceding or immediately following EMV in the same patient. The sequence of the control/baseline phase and the experimental phase of the study will be randomized. DATA COLLECTION Demographic data, weight, height, and past and current medical history will be recorded. Also hospital admission information, reasons of mechanical ventilation, mode of mechanical ventilation and settings, arterial blood gas, clinical laboratory (hematology/chemistry) values, and hemodynamic values will be recorded. STATISTICAL ANALYSIS Baseline demographic and procedural variables will be analyzed statistically by plotting the 95% confidence intervals of each variable. For feasibility evaluation, the total number of each type of asynchronous breaths/hour during entrainment-based ventilation will be averaged over the 4-hour experimental period and compared with those in the 4-hour baseline ventilation period.

To observe and identify determinants of recovery from intensive care unit-acquired weakness (ICUAW) following a severe cardiorespiratory failure requiring extra-corporeal membrane oxygenation (ECMO). Additionally, to discover the effects of ICUAW on physical function and health-related quality of life (HRQoL) after critical illness. CLEVERER is a clinical observational pilot study.

The hypothesis of this study is that respiratory physiotherapy can promote improvement in respiratory mechanics in children with respiratory failure and the bag squeezing maneuver is more effective in improving respiratory mechanics in childrens and does not alter the hemodynamic proved safe

Currently, dexmedetomidine is approved by the United States Food and Drug Administration (FDA) for short-term analgosedation (<24h) in mechanically-ventilated critical care adult patients and sedation of non-intubated adult patients prior to and/or during surgical and other procedures. Trials are underway to investigate its pharmacokinetics, clinical efficacy and safety in long-term use. Clinical experience with dexmedetomidine in the paediatric population is limited. Moreover, during childhood many developmental changes take place with consequences on drug exposure and drug response. Finally, critical illness itself can affect drug pharmacokinetics and -dynamics. Therefore, we cannot simply extrapolate adult data for use in children but we are in need of data on pharmacokinetics and pharmacodynamics in every paediatric subpopulation.

Despite widely used of nasal CPAP in preterm infants, uncertainties regarding aspects of its application remain. Clinical indications vary greatly between institutions, especially when combined with varieties of systems, devices, and techniques available. One of the controversial aspects that needs to be clarified is the level of pressure which should be used. The objective of the study is to compare the effectiveness of two ranges of nCPAP pressure that are within the spectrum of current practice for post-extubation support in very preterm infants.