Active clinical trials for "Respiratory Insufficiency"

The pilot/feasibility study evaluates the ability of High Velocity Nasal Insufflation (HVNI) therapy to facilitate ambulation and mobilization in patients experiencing shortness of breath, as compared to simple oxygen therapy.

Non-invasive mechanical ventilation (NIV) has not exhibited a reduction of reintubation after extubation failure compared to oxygen therapy. The reduction of reintubation with NIV versus oxygen therapy in patients with extubation failure was evaluated. A clinical trial was conducted that included patients who underwent mechanical ventilation and developed acute respiratory failure after extubation. After extubation failure, thirty-three were assigned to NIV and thirty-two were assigned to oxygen therapy.

The aim of the study is to examine if automated oxygen delivery with O2matic allows for faster weaning from oxygen and better oxygen control than manually controlled oxygen therapy for patients admitted with an exacerbation of chronic obstructive pulmonary disease (COPD). Furthermore it will be tested if O2matic compared to manual control allows for faster discharge from hospital. Patients sense of security, anxiety and dyspnea will be evaluated by questionnaires.

This study evaluates a novel arm restraint compared with traditional soft wrist restraints in older critically ill patients. The primary outcome is upper extremity mobility measured by actigraphy, and secondary outcomes include sedation, agitation, satisfaction, and acceptability.

Mortality of intubated acute hypoxemic respiratory failure (AHRF) and acute respiratory distress syndrome (ARDS) patients remains considerably high (around 40%) (Bellani 2016). Early implementation of a specific mechanical ventilation mode that enhances lung protection in patients with mild to moderate AHRF and ARDS on spontaneous breathing may have a tremendous impact on clinical practice. Previous studies showed that the addition of cyclic short recruitment maneuvers (Sigh) to assisted mechanical ventilation: improves oxygenation without increasing ventilation pressures and FiO2; decreases the tidal volumes by decreasing the patient's inspiratory drive; increases the EELV by regional alveolar recruitment; decreases regional heterogeneity of lung parenchyma; decreases patients' inspiratory efforts limiting transpulmonary pressure; improves regional compliances. Thus, physiologic studies generated the hypothesis that addition of Sigh to pressure support ventilation (PSV, the most common assisted mechanical ventilation mode) might decrease ventilation pressures and FiO2, and limit regional lung strain and stress through various synergic mechanisms potentially yielding decreased risk of VILI, faster weaning and improved clinical outcomes. The investigators conceived a pilot RCT to verify clinical feasibility of the addition of Sigh to PSV in comparison to standard PSV. The investigators will enrol 258 intubated spontaneously breathing patients with mild to moderate AHRF and ARDS admitted to the ICU. Patients will be randomized through an online automatic centralized and computerized system to the following study groups (1:1 ratio): PSV group: will be treated by protective PSV settings until day 28 or death or performance of spontaneous breathing trial (SBT); PSV+Sigh group: will be treated by protective PSV settings with the addition of Sigh until day 28 or death or performance of spontaneous breathing trial (SBT). Indications on ventilation settings, weaning, spontaneous breathing trial and rescue treatment will be specified.

PNEUMA is a preliminary safety and feasibility trial of a novel approach to the titration of neuromuscular blockade (NMB) to safe spontaneous breathing in patients with severe acute respiratory distress syndrome (ARDS) supported with veno-venous extracorporeal membrane oxygenation (VV-ECMO).

Prospective, Randomized, Double-Blind, Placebo-Controlled Phase II Trial of Intravenous L-Citrulline (Turnobi) to Delay and Potentially Prevent the Need for Invasive Mechanical Ventilation for Acute Hypoxemic Respiratory Failure in Patients with COVID-19 (SARS-CoV2) Illness. To evaluate safety and efficacy of a bolus loading dose and continuous intravenous infusion of L-Citrulline compared to placebo in patients hospitalized with COVID-19 infection (SARS-CoV-2).

The high frequency of unplanned hospital visits of patients with chronic hypercapnic respiratory failure (e.g., chronic obstructive pulmonary disease, obesity-related hypoventilation) constitutes a major public health problem. Most patients admitted for acute exacerbations (AHRF) have additional comorbidities, especially sleep disorders. Often untreated, sleep disorders contribute to multiple readmissions (≈70% at one year) and increase readmission costs. The investigators will: 1) identify these patients early during unplanned hospital admissions and perform sleep studies using EEG and oximetry before hospital discharge and two months after to compare sleep abnormalities in the two moments; 2) investigate the association between sleep abnormalities in the two sleep studies with clinical outcomes (1-year readmission and death); 3) investigate the acute effects of high-flow nasal cannula (HFNC) to treat sleep abnormalities as a simplified alternative. The investigators anticipate sleep abnormalities during the hospital stay and two months after discharge will be associated with poor clinical outcomes (readmission, death) and HFNC to acutely reduce sleep abnormalities.

Infants in the neonatal intensive care unit (NICU) may be lost due to risks such as being sensitive, frequent exposure to birth complications and being prone to infection. The most common causes of mortality in newborn babies in the world; Complications due to preterm delivery (28%), infections (26%) and perinatal asphyxia (23%) were reported. Respiratory problems are observed in 4-6% of newborns. These problems are also important causes of mortality in the neonatal period. Newborn infants are more likely to have respiratory distress due to difficulties in airway calibration, few collateral airways, flexible chest wall, poor airway stability, and low functional residual capacity.Invasive mechanical ventilation (IMV) is frequently used in the treatment of newborns with respiratory failure. Various ventilation modes and strategies are used to optimize mechanical ventilation and prevent ventilator-induced lung injury. Among the important issues to be considered in newborns connected to mechanical ventilator (MV); Choosing an appropriately sized endotracheal tube to reduce airway resistance and minimize respiratory workload, correct positioning, regular nursing care, chest physiotherapy, sedation-analgesia, and infection prevention are also included.

After RECOVERY trial publication, low dose (6 mg dexamethasone for 10 days) was recommended as the usual care treatment in hospitalized patients with respiratory failure by COVID-19 needing oxygen therapy. RECOVERY trial showed how the use of dexamethasone 6 mg / day for ten days compared to standard treatment without the use of corticosteroids in hospitalized patients reduced mortality at 28 days (22.9% with dexamethasone vs 25.7% without dexamethasone). In the dexamethasone group, the incidence of mortality was lower than standard treatment in patients with hypoxia and the need for mechanical ventilation (29.3% with dexamethasone vs 41.4% without dexamethasone), in patients admitted to the hospital ward with a need for oxygen therapy (23.3% with dexamethasone vs 26.2% without dexamethasone), but they did not find differences between those admitted patients who did not need oxygen therapy. There are two other studies (DEXA-COVID-19 and CoDEX) where they observed benefits of the use of dexamethasone 20 mg / day 5 days, and 10 mg / day 5 days (total 10 days) in patients admitted for respiratory distress syndrome (ARDS) and COVID-19. At present, it is unclear what dose of dexamethasone is most beneficial in patients with COVID-19 and respiratory failure.