View clinical trials related to Critical Illness.
Filter by:Unexpected intensive care unit (ICU) readmission is associated with longer length of stay and increased mortality. Bedside decision support may prevent readmission and mortality and may allow optimizing ICU capacity. Using a recently developed and prospectively validated machine learning model that predicts ICU readmission and mortality rate after ICU discharge and shows trends in these predictions over time, we will evaluate the implementation of the European conformity (CE)-marked software based on this model (Pacmed Critical, Pacmed, Amsterdam) by investigating whether the software improves diagnostic accuracy compared to routine clinical evaluation by the treatment team and whether availability of the information from this software leads to changes in discharge management (either postponing or advancing discharge) for patients considered eligible for discharge.
The purpose of this study is to evaluate the efficacy and safety of fospropofol disodium for injection compared to propofol for sedation in mechanically ventilated ICU patients.
This study within a trial (SWAT) will be a sub-study of the UK-ROX trial (ISRCTN13384956), which is currently running in intensive care units across the UK. UK-ROX is large-scale randomised controlled trial evaluating conservative oxygen therapy (a target SpO2 of 88-92%) versus usual oxygen therapy in mechanically ventilated adult patients admitted to ICUs in the UK. The purpose of this observational sub-study is to compare pulse oximeter-derived peripheral oxygen saturation (SpO2) values to co-oximeter-derived arterial oxygen saturation (SaO2) measurements from arterial blood gas (ABG) samples, for a range of fingertip pulse oximeters in an ethnically diverse group of adult patients admitted to UK intensive care units (ICUs). Approximately 900 patients will be recruited over 12 month period from 24 sites to provide an anticipated 10,800 paired SpO2 and SaO2 measurements. Patient skin tone will be objectively measured using a handheld spectrophotometer. Data from the sub-study will be used to determine the accuracy of the tested pulse oximeters across a range of skin tones and arterial oxygenation levels.
This study prospectively observed the complications intended as diarrhea or sti-sis that critically ill patients developed within 7 days after ICU admission. In addition, secondary aims investigated through bioimpedenziometry the loss of lean body mass and changes in phase angle during the same period of ICU stay.
A pilot randomized clinical trial comparing a protocol-based fluid management strategy to usual care in critically ill patients receiving kidney replacement therapy. The fluid management protocol is intended to achieve neutral or negative daily fluid balance by both preventing and treating fluid accumulation.
The ongoing COVID-19 pandemic caused high hospitalization and mortality rates especially in critically ill patients. Unfortunately, there is no present study with a large number of patients that would offer us clear answers on the treatment of ICU COVID-19 patients with adsorption filters, extracorporeal methods and the hemoperfusion method. The purpose of this registry study is to investigate the effectiveness and safety of the extracorporeal blood purification and hemoperfusion/hemadsorption filters in treating of critically ill COVID-19 patients.
Pain is a frequent symptom in the intensive care unit (ICU). Critical ill patients are often intubated and sedated which makes self-evaluation of pain impossible. Pupillary dilatation is a reflex directly related to stimuli such as pain, which can be measured by quantitative pupillometry. Several studies in ICU showed a significant relationship between pupillary diameter variation and pain. The nociception level index (NOL-index) is a recent noninvasive and continuous monitoring of pain essentially used in operating room. The aim of this study is to evaluate the pupillometry and NOL index in critical ill patients in sedated patients under mechanical ventilation during the mobilization plus toilet (described in literature as not painful procedure) and tracheal suctioning (described as a painful procedure)
Acute kidney injury (AKI) in Covid-19 patients is a topic that receives little attention in the literature, although being important in clinical practice in the ICU, particularly in Oman. Our objective was to determine the incidence of AKI, risk factors, and the requirement of renal replacement treatment. Methods: All adult patients hospitalized at Sultan Qaboos University Hospital in the critical care unit (ICU) between March 2020 and September 2021 with laboratory-confirmed Covid-19 had their medical records retrospectively reviewed. All patient characteristics, their course of events, and the treatment received in ICU were noted. The incidence of AKI, its association with the glycemic index, and other possible risk factors will be studied. Those requiring renal replacement therapy will be studied in terms of its predictors and outcomes.
More than 60% of intensive care unit (ICU) patients are adults ages 60 and older, who are at high risk for ICU-acquired cognitive impairment. After ICU discharge, ICU survivors often experience sleep disturbances and inactivity, and almost 80% of ICU patients experience disturbances in circadian rhythm, which may affect cognitive function. Understanding the optimal, chronotherapeutic timing of cognitive interventions is crucial to promote circadian realignment and cognitive function, and may improve intervention feasibility, acceptability, and efficacy. Specific Aim 1 will determine feasibility, acceptability, and preliminary effect sizes for: 1) a morning session of a computerized cognitive training intervention [COG]; and 2) a late afternoon/early evening session of the COG intervention; compared to 3) standard inpatient care/usual care [UC]. Specific Aim 2 will examine circadian rhythm parameters to determine the optimal timing of the daily COG intervention. Exploratory Aim 3 will explore if the effects of the COG intervention on cognitive function are mediated by daytime activity, and explore if selected biological and clinical factors moderate intervention effects on cognitive function.
High flow nasal cannula administration in critically ill patients is frequently used to improve acute respiratory failure or to prevent respiratory failure after extubation. It acts generating a mild positive pressure in the airways and by reducing respiratory effort of patients. However to the best of our knowledge, no study to date has directly measured the amount of positive pressure generated in the trachea of patients. The primary aim, therefore, of this study measures this positive pressure after extubation in critically ill patients.