View clinical trials related to Respiratory Insufficiency.
Filter by:15 COPD patients will be surveyed in this prospective randomized crossover pilot study concerning non invasive ventilation. Patients will be treated over 2 nights in randomized order with Ventimotion2 (Weinmann) with and without Airtrap Control under Polysomnography (PSG) surveillance including transcutaneous pCO2 measurement. The sleep quality is judged by evaluating the PSG and pCO2 values over night. Target parameters are respiratory rate, sleep quality and influence of Airtrap Control on pCO2 values over night.
Aim of this prospective randomized trial is to compare non invasive ventilation (NIV) with pressure control (BiPAP-ST) to volume assured pressure support (iVAPS) with regards to sleep quality and alveolar ventilation in patients with routine NIV initiation after COPD exacerbation. 20 patients with COPD and chronic hypercapnic respiratory failure will spent two nights on NIV, one with spontaneous timed pressure controlled bilevel ventilation (BiPAP-ST) and one with the advanced mode of intelligent volume assured pressure support (iVAPS). Patients will spend the treatment nights in randomized order under polysomnographic surveillance, including transcutaneous PCO2 measurement. Besides the number of arousals and PCO2 values over night the sleep quality will be judged with regards to especially adjusted respiratory event criteria like unintentional leaks, patient ventilator asynchrony, and decrease of ventilatory drive.
The objective of this study is to determine the effect of thiamine therapy on oxygen consumption (VO2) in critically-ill patients. We will evaluate this by measuring VO2 before and after thiamine or placebo administration in patients admitted to the ICU and requiring mechanical ventilation. A secondary aim is to evaluate the effect of thiamine vs. placebo on the metabolic profile of the patients.
Patients with underlying neuromuscular disorder (NMD) often suffer from weakness in the inspiratory and expiratory muscles. Consequently they do not have the strength to generate the minimum flow of 160 to 300 liters/minute for an efficient cough function. The restricted cough function allows secretion to accumulate, which in turn causes narrowing of the airway lumen and makes ventilation of the neuromuscular patient even more difficult. The patient's susceptibility to infection increases again and the vicious circle repeats itself. Severe secretion retention may even lead to ventilator failure. Effective secretion and cough management instead reduces the risk for stay in hospital. Therefore, secretion and cough management is a mandatory part of the therapeutic concept for treating patients with neuromuscular disease. The therapeutic efficacy of the Lung Insufflation Assist Maneuver(LIA) integrated in the ventilator VENTIlogic LS-plus manufactured by Weinmann GmbH+Co KG was studied in a pilot study carried out by the Dep. for Pediatric Pulmonology and Sleep Medicine at the University Hospital of Essen/Germany in cooperation with Research & Development at Weinmann GmbH &Co KG, Germany . The objective of the pilot study was to examine the therapeutic efficacy of LIAM as a cough support function in patients with neuromuscular disease and indications for mechanical ventilation. We hypothesized that i) a certain insufflation maneuver pressure may be optimal to achieve the highest individual peak cough flow and ii) that this pressure is below the pressure needed to achieve the maximum insufflation capacity. We define the lowest insufflation capacity at which the best individual PCF can be achieved as optimum insufflation capacity (OIC). The study was performed using two different techniques in order to demonstrate that findings are not dependent on maneuver details but are rather based on effects of maneuver pressure. The protocol was limited to techniques which do not require breath stacking: i) insufflation with an Intermittend Positive Pressure (IPPB) device and ii) with the VENTIlogic LS using LIAM.
This study investigates what independent variables may influence Midazolam Pharmacokinetics in critically ill patients.
The purpose of the study is to test whether the health care provider access and training in CERTAIN (Checklist for Early Recognition and Treatment of Acute Illness), would facilitate timely and error free best-practice delivery and minimize preventable death and costly complications in critically ill patients.
Acute respiratory failure may occur early in the postoperative course, requiring endotracheal intubation and mechanical ventilation in selected patients, thus increasing morbidity and mortality and prolonging intensive care unit (ICU) and hospital stay.We will perform a multicenter, prospective, randomized clinical trial to compare the efficacy of non invasive ventilation (NIV) which associated pressure support ventilation (PSV: 5 to 15 cmH2O) and positive end expiratory pressure (PEEP: 5 to 10 cmH2O) with standard oxygen therapy in the treatment of postoperative acute respiratory failure. We also set out to examine the hypothesis that early application of NIV may prevent intubation and mechanical ventilation in patients who develop acute respiratory failure after abdominal surgery.
Impairment of airway patency is a common cause of extubation failure and opioids and hypnotics can adversely affect airway patency. Ketamine, a noncompetitive antagonist of N-methyl-D-aspartate (NMDA), unlike other anesthetics activates respiratory effort and promotes bronchodilation. At subanesthetic plasma concentration, ketamine reduces both opioid and propofol requirements. The purpose of this pharmaco-physiological interaction trial is to evaluate the effects of ketamine on breathing and electroencephalography in mechanically ventilated patients.
Respiratory failure following extubation causes significant morbidity and increases mortality in teh surgical intensive care unit (SICU). However the causes of respiratory failure following extubation remain poorly understood. The investigators hypothesize that extubation failure can be predicted based on preoperative risk factors as well as ICU acquired morbidities including muscle weakness and renal failure.
The present study aims to evaluate the impact of a weaning strategy based on identification of early signs of respiratory distress by lung ultrasound and the consequent implementation of a "clinical optimization" protocol as compared to usual care.