View clinical trials related to Respiratory Insufficiency.
Filter by:In this study patients who are intubated and on ventilator for more than 24h will be ventilated at three different level of support in Pressure Support and Neural Pressure Support to study patient-ventilator synchrony and muscle unloading.
Rationale: Despite the lack of clear clinical protocols, High Flow Nasal Oxygen (HFNO) is used as post-extubation respiratory support. Although HFNO seems to reduce the need for re-intubation, scepticism on its use persists as the mechanism of action in post-extubation patients remains undefined. Monitoring weaning from invasive mechanical ventilation while monitoring respiratory effort might help to determine the added value of HFNO surrounding extubation. We hypothesize that HFNO, compared to conventional oxygen therapy (COT), prevents de-recruitment of the lung and reduces respiratory effort, and so provides a physiologic clarification for the reduction in the need for reintubation. Objective: Determine the physiological effect of HFNO compared to COT in the extubation phase regarding respiratory effort and lung aeration. Study design: A physiologic, randomized clinical study comparing two standard of clinical care therapies. Study population: Adult patients on invasive mechanical ventilation (IMV) for >72 hours, who are scheduled for extubation. Intervention (if applicable): Before extubation, patients are randomized to receive COT (reference group) or HFNO as oxygenation regimen after extubation. Main study parameters/endpoints: The main outcome is the difference in change in lung respiratory muscle effort (mean ΔPES) at 24 hours post-extubation between the study groups. Secondary parameters are differences in changes in respiratory effort at 2 and 4 hours post-extubation, difference in change in lung aeration (mean ΔEELI), differences in tidal volume, Lung Ultrasound (LUS) score, dyspnea score, and respiratory and sputum parameters between patients undergoing different post-extubation oxygenation regimens.
Respiratory failure is the most frequent organ failure and cause for admission in the Intensive Care Unit (ICU) . It is a severe complication with an ICU mortality ranged from 31% to 33%. Symptomatic treatment of hypoxemic respiratory failure is a controversial topic with different options: 1) standard oxygen therapy, 2) high flow nasal cannula oxygen therapy (HFNC) and 3) non-invasive ventilation (NIV). The aim of the study is to compare HFNC versus NIV ventilation using CT scan. The hypothesis of this study is that in hypoxemic critically ill patients, the increase of lung volumes with NIV would be significantly higher than the increase of lung volumes with HFNC.
Mechanical ventilation can lead to diaphragm and lung injury. During mechanical ventilation, the diaphragm could be completely rested or it could be overworked, either of which may cause diaphragm injury. Mechanical stress and strain applied by mechanical ventilation or by the patient's own respiratory muscles can also cause injury to the lungs. Diaphragm and lung injury are associated with increased morbidity and mortality. Throughflow is a novel system that can reduce dead space without the need to increase the tidal ventilation, reducing the ventilatory demands and respiratory drive.
The goal of this clinical trial is to compare different approaches of spinal anesthesia in pregnant females who are having cesarean section. The main aim is • Which approach is better in terms of avoiding intraoperative and post operative complications Participants will be given anesthesia by 1. Midline approach 2. paramedian approach 3. Taylors approach
Critically unwell patients in Intensive Care have a decreased ability to effectively clear secretions. High secretion load is a major risk factor in the failure of tracheal extubation failure and the requirement for reintubation. Extubation failure is a predictor of poor outcome independent of the severity of the underlying illness. Nebulisation of isotonic saline can be employed to manage secretions by reducing the secretion viscosity and facilitating clearance of respiratory sections during tracheal suction. Standard jet nebulisers have been the mainstay of respiratory section management therapy in critical care since the early 1990s. A more recent development has been the vibrating mesh nebuliser. There is evidence of improved humidification and reduced water particle size and theoretically better transfer to the distal airways.
The purpose of this study is to evaluate the effect of tozorakimab, as an add-on to SoC in patients with viral lung infection requiring supplemental oxygen, on the prevention of death or progression to IMV/ECMO.
It is known that the inhalation (nebulizer) use of drugs is of great importance in the intensive care of patients with acute and chronic respiratory failure of various origins. Searching PubMed data for the last 5 years (2017-2022) for the keywords "nebulizer therapy" revealed 533 publications, and "mesh nebulizer therapy" - only 25 sources. During the same period, the national database (E-Library) has 75 publications for the keywords "nebulizer therapy", and 4 sources for "mesh nebulizer therapy". It should be noted that almost all publications are devoted to the use of nebulizers for specific diseases and pathological syndromes. There are no works evaluating the adherence of specialists, systemic indications and actually used methods. The aim of trial is to study the current state of the use of nebulizer therapy in medical organizations and identify ways to improve its effectiveness This study is planned to be carried out using a questionnaire using a database based on the Internet electronic survey form.
The investigators recently evaluated 4 different oximeters among the most commonly used with arterial catheter in place and compared SpO2 with SaO2 obtained on arterial gas. Correlations between SaO2 and SpO2 were poor for all oximeters, as previously known, and SpO2-SaO2 bias were different between oximeters. Some oximeters (Masimo, Nellcor) had lower biases but they detected less well hypoxemia. Some oximeters underestimated SaO2 (Nonin) but detected very well hypoxemia, and some overestimated SaO2 (Philips). The investigators concluded that oximeters provide different informations to clinicians, and oxygenation targets should take into account for these differences. The assumption is that the SpO2 target AND oximeter used will both have an impact on oxygen flows and that these effects will add up. With a high SpO2 target, oxygen flows will be significantly greater and with the Nonin oximeter, the required flows will be greater than with the Philips oximeter. NB: the results obtained were in a population with light skin pigmentation (96% of the patients were Fitzpatrick 1-2, reflecting the local hospitalized population).
With this interventional prospective study, we aim at comparing the effectiveness of Neural Pressure Support (NPS) in reducing respiratory work and patient-ventilator asynchronies as compared with standard Pressure Support Ventilation (PSV), in a cohort of patients with Acute Respiratory Failure (ARF) and low respiratory system compliance.