View clinical trials related to Respiratory Insufficiency.
Filter by:Pathophysiological changes influenced by multiple factors in critically ill patients, has a significant impact on pharmacokinetics (PK) and pharmacodynamics (PD) of cisatracurium. In order to understand better and find an appropriate dosing regimen, the purpose of this study is to investigate the PK and PD of a loading dose cisatracurium in critically ill patients. Cisatracurium, nondepolarizing neuromuscular blocking agents (NMBAs), are commonly used in intensive care units because of a lesser effect on hemodynamic parameters and a reduction in mortality rate in ARDS patients. Loading dose recommended in clinical practice guidelines for sustained neuromuscular blockade in the adult critically ill patient is 0.1-0.2 mg/kg. Then, maintenance dose of 1-3 mcg/kg/min is followed regarding indications, such as ARDS. However, this recommended loading dose might not be adequate in critically ill patients, the study in this specific population might be needed.
Ventilator hyperinflation (VHI) has been shown to be effective in improving respiratory mechanics, secretion removal, and gas exchange in mechanically ventilated patients; however, there are no recommendations on the best ventilator settings to perform the technique. Thus, the aim of this study was to compare six modes of VHI, concerning physiological markers of efficacy and safety criteria, in order to support the optimal VHI settings selection for mechanically ventilated patients. In a randomized, controlled and crossover study, 30 mechanically ventilated patients underwent 6 modes of ventilator hyperinflation. The maximum expansion (tidal volume), expiratory flow bias criteria (inspiratory and expiratory flow patterns), overdistension (alveolar pressure), asynchronies and hemodynamic variables (mean arterial pressure and heart rate) were assessed during the interventions.
The purpose of the present project is to compare High-Flow Nasal Oxygen therapy with Standard Oxygen therapy, initiated in the prehospital setting in patients with acute hypoxemia respiratory failure, in terms of oxygenation at arrival to the hospital and need of mechanical ventilation during the subsequent 28 days
Mortality of acute hypoxic - hypercapnic respiratory failure (ARF) patients underwent invasive mechanical ventilation is demonstrated to be higher than in patients who underwent only non invasive mechanical ventilation (NIV). There is an increased need to detect more predictive factors for NIV failure, in order to better identify patients most at risk of facing negative outcomes. The aim of this experimental pilot study is to evaluate the feasibility of the ultrasound of diaphragm in ARF patients underwent non invasive mechanical ventilation ( primary endpoint ). Furthermore the secondary aim is to observe any relationship between diaphragmatic function (excursion), diaphragmatic thickening and the timing of arterial blood gases (ABGs) compensation in patients with ARF undergoing NIV treatment; additional outcomes are: correlation with dyspnea level, time of mechanical ventilation, NIV failure, rate of tracheostomy, length of stay in ICU and in-hospital and 90-day mortality.
Although many studies have investigated the clinical benefits of nasal high flow during acute hypoxemic respiratory failure, there is no data (and even less so recommendations) on how to best conduct this technique, including its initiation and its weaning periods. Investigators will assess in a multicenter, observational study, the way clinicians use nasal high flow therapy in patients with acute respiratory failure in order to try identify one or more strategies that may be then compared in an interventional study.
Objective: Arterial blood gas (ABG) is essential in the clinical assessment of potential acutely ill patients venous to arterial conversion (v-TAC), a mathematical method, has recently been developed to convert peripheral venous blood gas (VBG) values to arterialized VBG (aVBG) values. The aim of this study is to test the reliability of aVBG compared to ABG in an intensive care unit (ICU) setting. Method: Consecutive patients admitted to the ICU with pH values <7,35 or >7,45 are included in this study. Paired ABG and aVBG samples are drawn from patients via arterial catheter, central venous catheter and/or peripheral venous catheter and compared.
Invasive mechanical ventilation is common in the medical intensive care unit, and the period of time following extubation remains high risk as 11 to 15% of patients require reintubation after their first extubation. Reintubation is associated with increased rates of nosocomial infection and is an independent predictor of mortality. Non-invasive ventilation and high flow nasal cannula are the only therapies that have been shown to reduce the rate of reintubation. Recent clinical trials suggest that all patients might benefit from some form of post-extubation respiratory support, but use of these therapies in usual care remains low. PROPER is a cluster-randomized, multiple-crossover trial comparing a respiratory therapist driven protocol to provide post-extubation respiratory support to all patients, compared to usual care. The trial will enroll patients undergoing extubation in the Medical ICU at Vanderbilt from October 2017 until March 2019. The primary outcome will be reintubation within 96 hours.
The investigators propose to conduct a feasibility, multi-centre, randomised controlled trial of targeted oxygen therapy in adult critically ill patients receiving mechanical ventilation via an endotracheal tube as part of their treatment for respiratory failure. Participants will be allocated to either a normal blood oxygen target group or a lower than normal blood oxygen target group. The primary purpose of the study will be to assess the feasibility of recruiting complex patients who lack capacity into a clinical trial in which oxygenation is being assessed, and that the clinicians responsible for these patients are able to deliver the intervention effectively. The safety of using a lower than normal blood oxygen target will also be assessed and blood samples taken for subsequent investigation of the biological mechanisms underlying the observed changes. Participants will be randomised (1:1) into either an intervention or control group. The intervention in this trial is tightly controlled administration of oxygen to patients to achieve a haemoglobin oxygen saturation (SpO2) of 88-92%. The control group will also have tightly controlled oxygen administration, but to achieve an SpO2 of 96% or above. The target for the control group represents a normal SpO2, whilst that in the intervention group is lower than what is considered to be normal. It should be noted that although lower than normal, this SpO2 is close to what the general public experience when travelling by pressurised aircraft as the fractional inspired oxygen concentration in that situation is only 0.15-0.17 (15-17%). The controlled oxygen administration would commence as soon as possible after admission to the critical care unit and end following removal of the participant's artificial breathing tube. The researchers and clinical team cannot be blinded to treatment allocation, due to the nature of the intervention. Those analysing the data will be blinded to the intervention.
Cesarean deliveries are the most commonly performed surgery in the United States and account for 32.9% of all births.8,9 The ASA recommends the use of neuraxial opioids of post-cesarean analgesia partly because respiratory depression in the obstetric population, as measured by intermittent respiratory rate and pulse oximetry, is reported to be low (0-1.2%).10,11 Respiratory depression lacks a standard definition,12 but the most sensitive means of detecting respiratory depression is hypercapnia.1,3 Two recent studies using continuous hypercapnia (>50mmHg PaCO2) monitoring demonstrated higher rates of respiratory depression (17.8-37%) in healthy, non-obese women receiving intrathecal opioids for post-cesarean analgesia.13,14 In addition, supplemental opioids are required in the majority of women receiving intrathecal morphine and may increase the risk of respiratory depression.11,14 Anesthesiologists debate whether neuraxial opioids or intravenous patient controlled opioid analgesia (PCA) are the safest practice for postoperative analgesia in obese parturients following cesarean delivery. The ASA recommendations to employ neuraxial analgesia post-cesarean delivery does not differentiate between non-obese and obese women who now make up 30.3% in US women of child-bearing age.2 Obesity has been described as a risk factor for respiratory depression in those receiving opioids via any route of opioid administration,11,15, 17 but whether obesity itself is the risk factor or associated co-morbidities such as sleep apnea is debated. Studies are conflicting whether intrathecal opioids or patient controlled intravenous opioids cause more respiratory depression. Several studies have documented the incidence of respiratory depression with IV PCA; the rates range from 0.19% to 5.2%, which are equivalent or higher than those reported for intrathecal opioids. (Hagle 16). Dalchow et al. demonstrated higher rates of hypercapnia in patients receiving intrathecal opioid compared with those receiving intravenous opioid via patient controlled analgesia in nonobese women following cesarean delivery. (Dalchow) The Topological Oscillation Search with Kinematical Analysis (TOSCA) monitor allows a noninvasive method to measure transcutaneous carbon dioxide levels, with relative accuracy compared to arterial carbon dioxide monitoring.4-7 No studies have examined transcutaneous carbon dioxide levels in obese women following cesarean delivery using any form of postoperative analgesia. The investigators propose a randomized controlled trial using continuous transcutaneous carbon dioxide monitoring to evaluate the degree of respiratory depression in obese women receiving neuraxial opioid compared to intravenous opioid via PCA for post-cesarean analgesia. Two studies have demonstrated high rates of hypercapnia in non-obese women following administration of intrathecal morphine for cesarean delivery in the postpartum period. (Dalchow, Bauchat) Dalchow et al. demonstrated higher rates of hypercapnia in women receiving intrathecal diamorphine than intravenous morphine delivered via patient controlled analgesia. It is unclear whether intrathecal morphine causes more or less respiratory depression than intravenous opioid delivered via patient-controlled analgesia in obese women. This study will add to the understanding of respiratory function in the immediate postpartum period in obese women using opioids via intrathecal or intravenous routes. This study will better inform guidelines for the postpartum analgesic route of choice in the obese obstetric population and allow the investigators to make recommendations for the detection and prevention of respiratory depression after opioid administration in the obstetric population. Objective is to examine the transcutaneous carbon dioxide levels in obese women using either intrathecal morphine or intravenous patient-controlled hydromorphone for post-cesarean analgesia. The hypothesis is carbon dioxide levels will be significantly higher in obese women receiving intrathecal morphine versus obese women receiving intravenous patient controlled intravenous hydromorphone.
High flow oxygen therapy has been applied after extubation in cardiac surgery patients with uncertain efficacy. The current authors plan to conduct a prospective, randomized, controlled study of nasal high flow therapy (NHF) application with high (60L/min) or low flow (40L/min) oxygen mixture administration versus standard oxygen treatment (Venturi mask) after extubation of patients undergoing elective or non-elective cardiac surgery.