View clinical trials related to Respiratory Insufficiency.
Filter by:The Acute Respiratory Distress Syndrome (ARDS) is one of common clinical critically diseases. In the United States, the incidence of ARDS reaches 31%, which is one of the main causes of death in patients. There is no unified treatment process for ARDS currently and the treatment measures are not yet standardized, so the standardization of ARDS treatment processes is needed to reduce mortality in patients. Following the evidence-based medicine principles and six-step treatment standards of ARDS, this study uses the method of multi-center randomized controlled clinical trials to evaluate the standardized treatment process of ARDS, which provides the basis for the standardized treatment of ARDS.
It has been demonstrated the application of noninvasive positive pressure ventilation (NPPV) to assist spontaneous breathing through a face mask during fiberoptic bronchoscopy (FOB) with bronchoalveolar lavage (BAL) in severely hypoxemic, nonintubated patients. With NPPV, FOB was well-tolerated, significantly improved the PaO2/FiO2 ratio, and successfully avoided the need for endotracheal intubation. Two randomized studies have provided supporting evidence that the application of NPPV or CPAP via a face mask was superior to oxygen supplementation alone during FOB. For this reason patients who require FOB and are hypoxemic and/or mild hypercapnic (TcCO2 < 60mmHg) will be compared in a randomized study by comparing NPPV vs CPAP Boussignac (Vygon) delivered through a face mask.
Mechanical ventilation permits to support the work of breathing in case of respiratory failure, but therapy also has many side effects. Non-invasive ventilation (NIV), which delivers the ventilatory assist via a face mask or nasal canula, permits to decrease these complications. However, NIV is not always successful and half of children in respiratory failure finally require invasive ventilation. A major cause of NIV failure is the ventilator inability to detect patient efforts. The new ventilatory mode NAVA (neurally adjusted ventilatory assist) improves the detection of patient efforts during mechanical ventilation. The hypothesis of this study is that NAVA improves synchrony during pediatric NIV and therefore permits to unload the patient ventilatory efforts.
Lower lobe atelectasis of the lung is common in Acute Respiratory Distress Syndrome (ARDS) and has the potential to adversely impact lung compliance and intra-pulmonary shunt. The cephalic shift of the diaphragm and dorsal atelectasis associated with the commonly used supine position might also contribute to this shunt. Reports indicate that obese patients may be more likely to develop dorsal atelectasis than non-obese patients. The investigators hypothesized that opening the body position angle at the waist from a typical head of bed at 30 degrees to one similar to a more upright reverse trendelenburg position, would alter the position of the diaphragm downward, allowing for improved aeration of lung bases. Thus, the investigators examined the upright body positioning in mechanically ventilated patients with ARDS primarily by evaluating for effects on oxyhemoglobin saturation (O2sat), Tidal Volume (TV) and Respiratory Rate (RR).
The purpose of this multi-center randomized controlled non-inferiority trial is to determine the effect of a strategy using routine nebulisation of mucolytics and bronchodilators (four times daily) as compared to a strategy using nebulisation of mucolytics or bronchodilators only on clinical indication (i.e. occurrence of persistent thick and tenacious sputum or bronchospasm) in mechanically ventilated intensive care patients. The investigators will examine the effects in terms of ventilator-free days, defined as the number of days alive and free of ventilation at day 28 after start of ventilation. We hypothesize that a strategy that uses nebulisation of mucolytics or bronchodilators only on clinical indication not to be inferior to a strategy using preventive nebulisation of mucolytics or bronchodilators with regard to the number of ventilator free days in ICU patients at day 28.
Mechanical ventilation is a vital therapeutic support, widely used in pediatric intensive care. Invasive ventilation (IV) is associated with risk of major complications ( nosocomial pneumonia, secondary pulmonary barotrauma injuries, pneumothorax) , which can increase : the duration of ventilation, mortality, length of ICU stay and health costs. The practitioner should ask the benefit of the continuation of this IV daily and adapting it, to limit complications. The evaluation of the work of breathing is a key element in understanding the pathophysiology of respiratory distress but is also a key element in improving the management of ventilatory support and the adjustment of ventilatory parameters . It has been shown that there is an increased work of breathing in all children admitted in ICU for clinical acute respiratory distress that is significantly reduced by ventilatory support. There is probably a relationship that should be proportional between the work of breathing ( PTP ) resulting in respiratory request triggered by the respiratory drive and the electrical activity of the diaphragm ( Edi ) . The validation of this correlation PTP / Edi has a direct impact on the monitoring of ventilated patients with the ability to monitor the physiological factor while maintaining a classical treatment of children by simply monitoring Edi without additional invasive device .
The U.S. Environmental Protection Agency has traditionally examined the effects of single pollutant exposure on human health outcomes; however, to provide a better assessment of pollutant exposure-associated effect on human health the Agency is moving toward a multi-pollutant approach. Ozone (O3) and nitrogen dioxide (NO2) are national ambient air quality standards (NAAQS) criteria pollutants that are major constituents of ambient air pollution. This study will address the Agency's goals by investigating the cardiopulmonary health effects of sequential exposure to O3 and NO2 in healthy adult human volunteers. The findings of this study will provide data that will inform risk assessment models for O3 and NO2 exposures. Additionally, the findings will provide insight into how the human health effects of multi-pollutant exposures differ from those of single pollutant exposures.
The purpose of this study is to evaluate the efficacy and safety of rivaroxaban compared with placebo in the prevention of symptomatic venous thromboembolism (VTE) events and VTE-related death post-hospital discharge in high-risk, medically ill patients.
The purpose of this study is to determine whether, as compared with the Venturi mask, a nasal, high-flow oxygenation device (Optiflow) may reduce the extubation failure rate in patients needing oxygen therapy after extubation.
Intraoperative intravenous fluid management practice varies greatly between anesthesiologists. Postoperative fluid based weight gain is associated with major morbidity. Postoperative respiratory complications are associated with increased morbidity, mortality and hospital costs. The literature shows conflicting data regarding intraoperative fluid resuscitation volume. No large-scale studies have focused on intraoperative fluid management and postoperative respiratory dysfunction. Hypotheses: Primary - Liberal intraoperative fluid resuscitation is associated with an increased risk of 30 day mortality Secondary - Liberal intraoperative fluid resuscitation is associated with increased likelihood of postoperative respiratory failure, pulmonary edema, reintubation, atelectasis, acute kidney injury and peri-extubation oxygen desaturation.