View clinical trials related to Respiratory Insufficiency.
Filter by:This study aims to investigate, with a case-crossover design, the effects of a short course of preventive CPAP administered in the immediate postoperative period in patients at high-risk of developing postoperative pulmonary complications undergoing major vascular surgery.
Humidified high flow nasal oxygen therapy decreases dilution of the inhaled oxygen and, by matching patient's peak flow, allows accurate delivery of the set FiO2 throughout the whole inspiratory phase.The purpose of this study is to determine the impact of hign-flow nasal therapy on pediatric hypercapnic respiratory failure by comparing with nasal continuous positive airway pressure.
The primary objective of this study is to compare the efficacy of treatment with HFNC (group A) compared to administration of oxygen therapy by Venturi mask (group B, standard therapy) in terms of reaching of endotracheal intubation criteria during acute respiratory failure due to severe pneumonia. Inclusion Criteria: Respiratory rate (RR) at rest ≥20 bpm or presence of respiratory distress (severe dyspnoea at rest or use of accessory respiratory muscles or abdominal paradox); PaO2 / FiO2 ≤250 during oxygenation with Venturi Oxygenation mask at FiO2 = 50% administered for at least 60 minutes; Diagnosis of pneumonia as the sole cause of acute respiratory failure. Randomization: 150 consecutive patients will be randomized either to High Flow Nasal Cannula Oxygenation (75 patients, HFNCO with flow ≥ 60 L/min and FiO2 to maintain SpO2 ≥ ) or Venturi Mask Oxygenation (control, 75 patients). Patients from both groups will be treated with antibiotic therapy according to the IDSA/ATS 2007 guidelines for community-acquired pneumonia and the IDSA/ATS 2016 guidelines for hospital-acquired pneumonia. Intubation Criteria: MAJOR CRITERIA: Cardiac or respiratory arrest Breathing pauses with loss of consciousness Severe hemodynamic instability Need for sedation MINOR CRITERIA (maintained for ≥1h): Reduction ≥30% of the value of the PaO2/FiO 2 compared to baseline Increased 20% if PaCO2 PaCO2 previous ≥40mmHg Worsening alertness as increased by one degree on the Kelly scale Persistence or onset of respiratory distress Vital parameters, Kelly scale and arterial blood gas analysis (BGA) will be performed on admission, and at 1, 24, at 48 hours, at the achievement of clinical stability, and whenever there is a clinical worsening. Patients enrolled in HFNC arm will continue HFNC oxygenation until clinical stability, defined as: Body temperature ≤ 37°C and ≥36°C for 24 consecutive hours Good ability in swallowing CRP and WBC normalization trend than the admission exams Hemodynamic stability Lack of respiratory distress SpO2 94-98% The primary outcome variable is the proportion of patients who reach the endotracheal intubation criteria - regardless of the actual intubation rate - within the first 48 hours of treatment. The primary analysis will be performed on the ITT population
Spontaneous breathing efforts in patients with respiratory failure connected to mechanical ventilation, has been associated with strong respiratory muscles activity. However, these mechanisms may will be present in patients with acute lung deseases who are breathing with no ventilatory support. We hypothesize that spontaneous breathing during acute respiratory failure could induced lung inflammation and worsen lung damage. Hereby, the connection to a ventilatory support tool, may protect the lungs from spontaneous ventilation-induced lung injury. To test our hypothesis, our aim is to determine the effects of spontaneous breathing in acute respiratory failure patients, on lung injury distribution; and to determine whether early controlled mechanical ventilation can avoid these deleterious effects by improving air distribution.
Lungs of babies born early are not fully developed and they often need a machine to help them breathe. The traditional approach to provide this support is with a breathing tube passed into the windpipe. However, we know that breathing tubes can cause injury to the fragile lungs of premature babies. Providing breathing support through nose-masks instead of breathing tubes (called nasal breathing support) is becoming popular, as it is gentler on developing lungs. Doctors, in trying to limit the use of support with a breathing tube, are using many different forms of nasal breathing support. The most common form is nasal continuous positive airway pressure (CPAP) which delivers a constant pressure and the baby breathes on his on her own. However, when this strategy is no longer able to support a premature baby's breathing, the best way to provide breathing support is not known. Some doctors use a strategy called "nasal intermittent positive airway pressure" (NIPPV) which gives the baby artificial breaths through the nose-mask. Others simply increase the pressure on nasal CPAP to higher than traditional levels. In the first study of its kind, we will compare these two strategies of nasal breathing support given to premature babies.
Chronic Obstructive Pulmonary Disease (COPD) is a worldwide common disease with high morbidity and mortality and leads to heavy social and economic burden. Health management of stable COPD patients has been suggested to be essential for delaying diseases progress, reducing acute exacerbation events and improving patient quality of life. Non-invasive ventilation (NIV) is a widely used treatment in COPD patients. There were studies shown that NIV could improve ventilation, blood gases etc., and several clinical trials have shown improvements in survival, exercise capacity, quality of life and so on. Compliance to NIV and optimal parameter setting are important factors that will affect the effect of the use of NIV, thus NIV usage monitoring might also be a crucial element in the health management of COPD patients. Many studies have been designed to study the effect of tele-monitoring program on the management of COPD patients. However, almost none of these studies were designed for specific population, and little is known about the effect of such program on the management of patients with NIV treatment.
This study is designed to provide preliminary data to determine if concentrations of piperacillin/tazobactam change in patients with severe respiratory failure receiving extracorporeal membrane oxygenation (ECMO). The investigators hypothesize that patients will have significant changes in concentration measurements, specifically an increased clearance rate and increased volume of distribution, during ECMO as compared to critically ill patients.
Although non-invasive ventilation (NIV) usage has increased significantly over time in COPD exacerbation, a great percentage of patients (~30%) present contraindications to NIV or cannot tolerate it. Nasal high flow (NHF) has been introduced for the management of hypoxemic respiratory failure in adults with favorable effects on ventilation and respiratory mechanics. The above mentioned NHF positive effects has been observed also in stable COPD patients with or without chronic hypercapnia. In this study, the investigators hypothesize that NHF is not inferior to NIV for respiratory support in patients with COPD exacerbation and acute or acute on chronic hypercapnic respiratory failure.
This study evaluates the effect of the addition of ketamine to a conscious sedation protocol including remifentanil during oocyte retrieval. The investigators will have 2 groups with different target effect site concentrations, namely 150 ng/ml and 200 ng/ml.
Patients sedated under mechanical ventilation with acute hypoxemic respiratory failure with a PaO2/FiO2 equal or less than 200mmHg (Acute Respiratory Distress Syndrome, ARDS and non-ARDS) will be included in the study early in the course of the disease (first week of mechanical ventilation). At enrollment, data on the clinical condition of the patient will be recorded together with ventilation settings: ventilation mode, the fraction of inspired oxygen (FiO2), PEEP, tidal volume, set pressure, respiratory rate, time of the respiratory cycle, recent blood gas parameters. Airway pressure, flow, and esophageal pressure (or alternatively electrical activity of the diaphragm, Eadi) will be recorded 3 times a day for 7 days: 1. Period 1 (morning): duration 20-30 minutes 2. Period 2 (afternoon): duration 20-30 minutes 3. Period 3 (evening / night): duration 20-30 minutes Registration will be ended at extubation, death or at eight days from the first recording. Monitoring of vital parameters (hemodynamic and respiratory) will be continuous throughout the duration of the study, as per normal clinical practice. All drugs used during the day of the measurements will be recorded. The patient will then be followed until discharge from the ICU and after 60 days of discharge to evaluate mortality. As an ancillary study, in a subgroup of patients continuous simplified measurement of respiratory recordings together with hourly clinical data on sedation and extended simplified polysomnography recordings will be performed within the first 7 days from inclusion. The analysis of the recorded waveforms will be performed in a single center by a centralized system that will quantify dyssynchrony and its intensity, calculate pressure time product, collect clinical and physiological data and outcome, and investigate possible correlations.