View clinical trials related to Respiratory Insufficiency.
Filter by:Study Design: This study is a comparative, single-center study. This is a minimal risk study (as defined in 21 CFR Part 56) using a non-significant risk device (as defined in 21 CFR Part 812.3). A minimum of 60 subjects will be enrolled in the study. Subject participation will last approximately 1 hour.
Endotracheal intubation is a frequent procedure performed in neonates with respiratory distress. Clinicians use different methods to estimate the intubation insertion depth. In this study, the investigators aimed to compare the two different methods (kilogram + 6 cm and nasal septum-tragus length (NTL) + 1 cm) used to determine the endotracheal intubation insertion depth.
Health care renunciation is a factor that can alter patients' health status and increase the costs of its support. To date, there is no national data on the renunciation of care. This study will initially characterize the different forms of health care renunciation in patients with chronic respiratory diseases, treated with continuous positive airway pressure (CPAP) or non-invasive ventilation (NIV) , and analyze it impact on treatment compliance and health processes. The follow-up of these patients during 5 years will define renunciation trajectories (transition from the state of "renouncing" to "non-renouncing" and vice versa) and their impact on treatment compliance. The investigators hypothesize that a patient becoming renounced on a given treatment also decreases his treatment compliance (CPAP or NIV ). The impact of the renunciation trajectory on the patient's follow-up in terms of hospitalizations and deaths will also be studied.
Background: High-flow nasal cannula (HFNC) is a non-invasive heated and humidified oxygen delivery device that is capable of delivering high-flow rates. It is a relatively new modality that has been introduced as an alternative to conventional oxygen therapy. The clinical value of the use of HFNC is not limited to its ventilation and oxygenation effects, it enables the patient to talk and is purported to permit oral feeding during oxygen therapy despite the limited evidence regarding its impact on swallow function. This study will determine the impact of different flow rates of a high-flow nasal cannula on spontaneous swallowing frequency at rest and swallowing effort and timing while swallowing. Methods: This is a prospective study designed to measure swallowing frequency and swallowing effort in fifty healthy adult volunteers. Participants will receive three levels of HFNC flow rates (30, 45, and 60 L/min) through nasal prongs. The study participants will be asked to swallow measured amounts of water and applesauce and subjected to each flow rate for 15 minutes. Swallowing effort measurement through surface electromyography (sEMG) will be recorded at baseline and the three levels of HFNC flow rates interventions.
Mechanical ventilation can cause damage by overstretching the lungs, especially when the lungs are collapsed or edematous. Raising ventilator pressures can reduce lung collapse and this can prevent overstretching from mechanical ventilation. It remains uncertain how much pressure (PEEP - positive end-expiratory pressure) should be used on the ventilator and how to identify patients who will benefit from higher ventilator pressures vs. lower ventilator pressures. The investigators are using a unique new imaging technology, electrical impedance tomography (EIT), to study this problem and to determine the safest and most effective ventilator pressure level. The results of this study will inform future trials of higher vs. lower PEEP strategies in mechanically ventilated patients.
Protocol Summary: 1. Question Does the adjunction of a humidification system to non-invasive ventilation circuit improve sleep quality and comfort of chronic ventilated respiratory insufficient patients? Does it change the efficacy of long-term non invasive ventilation therapy and patient-ventilator interactions? 2. Aims Main aim: The primary endpoint of this study is to objectively evaluate the consequences of a humidification system's adjunction on quality of sleep, 2 months after treatment's beginning. Second aims: The secondary endpoints are to evaluate the consequences of a humidification system's adjunction on non invasive ventilation's efficacy / patient-ventilator asynchronies / patients' comfort / treatment adherence. Before the clinical trial, the investigators conducted a bench study using a mechanical lung in order to evaluate the ventilator's behavior with and without a humidification system. The clinical trial will include patients with chronic respiratory failure with an indication of long-term non invasive ventilation therapy. Patients will be included in the Pulmonology, Thoracic Oncology and Respiratory intensive care unit of Rouen University Hospital. It will be a prospective monocentric study, including consecutively all eligible patients. Informed consent will be obtained from all of them. At baseline, patients will be hospitalized for two consecutive nights for non invasive ventilation's set up. During the first night, a polysomnography will be performed without non invasive ventilation. Then, patients will be treated by non invasive ventilation with a bi-level self-regulated pressure mode and an open circuit. Patients will be randomized in two groups: without a humidification system and with a humidification system. Partitioning by the physiopathological pattern (obstructive versus obesity hypoventilation syndrome vs. neuromuscular disease) will be done. During each night, arterial blood gases will be measured at bedtime and awakening. Patients will be monitored by: - polysomnography (only during the first night) - transcutaneous capnography - accessory inspiratory muscles surface electromyography - pneumotachograph on non invasive ventilation's circuit - pressions measured at the mask. Follow-up will take place at two months after non invasive ventilation's beginning with or without humidification. Patients will be hospitalized for one night only. Blood gases at bedtime and at awakening will be measured. A polysomnography with non invasive ventilation will be performed. Observance will be evaluated.
Ventilator hyperinflation (VHI) has been shown to be effective in improving respiratory mechanics, secretion removal, and gas exchange in mechanically ventilated patients; however, the literature is scarce concerning its safety and adverse effects. Thus, the aim of this study is to compare the hemodynamic repercussions of VHI in volume-controlled mode. In a randomized, controlled and crossover design, 24 mechanically ventilated patients will undergo 2 modes of ventilator hyperinflation (with and without an inspiratory pause) and a control intervention. Cardiac output, cardiac index, mean arterial pressure, pulmonary vascular resistance, systolic volume and other hemodynamic variables will be recorded during the interventions.
Mechanical ventilation of ICU patients universally involves titration of the fraction of inspired oxygen (FiO2) to maintain arterial oxygen saturation (SpO2). Despite decades of ICU practice, however, the optimal SpO2 target remains unknown. Current guidelines offer divergent recommendations as to the optimal SpO2 target. Therefore, we propose a 2,250-patient cluster-randomized cluster-crossover trial comparing a lower SpO2 target (90%; range 88-92%), an intermediate SpO2 target (94%; range 92-96%), and a higher SpO2 target (98%; range 96-100%) with regard to the outcome of days alive and free of invasive mechanical ventilation.
The aim of the study is to examine if automated oxygen delivery with O2matic is better than manually controlled oxygen therapy for patients admitted to hospital with an exacerbation in Chronic Obstructive Pulmonary Disease (COPD). O2matic is a closed -loop system based on continuous non-invasive measurement of pulse and oxygen-saturation that is processed in an algorithm that controls the flow of oxygen to the patient. The primary hypothesis is that O2matic increases time within acceptable oxygen-saturation interval. Secondary hypotheses are that O2matic compared to manual control reduces time with severe hypoxia (SpO2 < 85 %), hypoxi (SpO2 below intended interval) and hyperoxia (SpO2 above intended interval).
Although recent global trends indicate reduced postoperative mortality after esophagectomy, major morbidity, in particular pulmonary, remains high, with considerable health and economic costs. In a recent modern international collaborative series of 2704 patients from high-volume centers, with an approximate equal mix of open and minimally invasive approaches, respiratory complications were evident in 28% of patients, pneumonia in 15%, and respiratory failure in 7%.1 In other series, respiratory failure is reported in up to 15% of patients and is the most common cause of mortality. Prediction of risk and prevention of respiratory morbidity is therefore of considerable importance, and in this context baseline assessment of respiratory physiology compliments clinical assessment, history and enhanced recovery pathways representing key elements of current patient management. In this study, which will include all prospective patients with locally advanced esophageal cancer treated at a National Center, pulmonary function will be systematically measured before and after neoadjuvant therapy. The investigators seek to evaluate the incidence of radiation induced lung injury (RILI), as well as subclinical changes in pulmonary physiology that may be linked to postoperative complications, and quality-of-life in survivorship, and to compare cohorts who received radiation therapy or chemotherapy alone, preoperatively.