View clinical trials related to Critical Illness.
Filter by:Intensive care unit (ICU) acquired weakness is a common complication associated with long-term physical impairments in survivors of a critical illness. The Chelsea Critical Care Physical Assessment tool (CPAx) is a valid and reliable instrument for physical function and activity in critically ill patients at risk for muscle weakness. However, its ability to measure change over time (responsiveness) and the minimal clinically important difference (MCID) have not yet been rigorously investigated. This multi-centre, mixed-methods, longitudinal cohort study therefore aims to establish responsiveness and the MCID of the CPAx in the target population from ICU baseline to ICU and hospital discharge. The study uses routine data from standard physiotherapy sessions like mobility, function and activity with no additional burden for critically ill adults. The investigators expect the CPAx to be responsive allowing its use as a primary outcome in future effectiveness trials for the treatment of ICU-acquired weakness using the newly established MCID for sample size calculation. A high quality, rigorously tested measurement tool for physical function and activity in the ICU should benefit researchers, clinicians and patients.
Preeclampsia is a disorder characterized by the new onset of hypertension and proteinuria typically presenting after 20 weeks of gestation. Elevated circulating homocysteine is a risk factor for endothelial dysfunction and vascular diseases such as atherosclerosis and occlusive disorders. Our study is to investigate the association between elevated blood homocysteine levels and complications in pregnant women in order to conclude the clinical utility of homocysteine as a marker of severity in the cases of pre-eclampsia.
The goal of this clinical trial is o determine the feasibility and efficacy of high enteral protein in critically ill postoperative children. It will also learn about the safety of high enteral protein for critically ill postoperative children. The main questions it aims to answer are: Does high enteral protein improve nitrogen balance in critically ill postoperative children? Does high enteral protein reduce levels of Intestinal Fatty Acid Binding Protein (I-FABP) in critically ill postoperative children? Researchers will compare high enteral protein to a standard enteral protein to see if high enteral protein works to improve nitrogen balance and reduces levels of Intestinal Fatty Acid Binding Protein (I-FABP) in critically ill postoperative children. Participants will: Take high enteral protein or standard enteral protein for 72 hours The nitrogen balance and I-FABP levels will be assessed both before and after enteral feeding. Monitoring and reporting of adverse events and serious adverse events will be conducted in accordance with good clinical practice guidelines.
Up to 25% of intensive care unit (ICU) survivors experience cognitive impairment comparable in severity to mild Alzheimer's disease and related dementias after hospital discharge. Older ICU survivors (ages 60 and older) are at highest risk for delirium and subsequent cognitive impairment, which contribute to higher risk for cognitive decline related to Alzheimer's disease and related dementias. Sleep and activity are essential for recovery from critical illness, yet ICU survivors experience both sleep deficiency and profound inactivity. About 75-80% of ICU patients experience circadian dysrhythmia, which contributes to cognitive decline and increases likelihood of developing Alzheimer's disease and related dementias. The scientific premises of the proposed study are: 1) a combined sleep promotion and cognitive training intervention will have synergistic effects to mitigate the risk of cognitive impairment and development of Alzheimer's disease and related dementias in older ICU survivors; and 2) chronotherapeutic timing of interventions (i.e., adjusting timing of interventions according to circadian rhythm) may improve intervention efficacy.
Fluids are considered the primary treatment for critically ill patients admitted to the intensive care unit (ICU), aiming to replace losses and or to enhance venous return, stroke volume, and consequently, cardiac output and tissue oxygen delivery. The modalities, volumes, and targets employed to titrate fluid therapy vary significantly in current clinical practice, as shown by the original FENICE study 10 years ago. FENICE studied how fluid challenges are given at the bedside. Very little is known about how this practice has changed since, how fluid administration (maintenance) is performed in general, and how the modality may impact outcomes. FENICE II is designed to explore these issues. Objectives: To provide a comprehensive global description of fluid administration modalities during the initial days of ICU admission and to explore any association between fluid administration characteristics and clinical outcomes. To describe the fluid challenge administration modality and appraise the use of variables and functional hemodynamic tests to guide bolus infusion.
Monitoring airway pressure is essential for patients with mechanical ventilation. However, static airway pressure does not reflect alveolar pressure at all. Airway pressure is supposed to completely interrupt the communication between proximal airway opening and the distal alveolar and/or small airway structures. In this condition, some alveoli may still be inflated but do not communicate with proximal airways and auto-PEEP will give a biased estimated of mean alveolar pressure. To be note, distinguishing the airway closure and alveolar collapse can be challenging at times. The quasi-static PV curve is a useful bedside tool to set mechanical ventilation, which may help us to identify the airway closure and alveolar collapse. Meanwhile, the quasi-static PV curve can only reflects a global behaviour of the lung, while EIT may be a useful tool to assess the regional information on airway closure and alveolar collapse.
Investigate the epidemiology, risk factors and impact on clinical practice of healthcare-associated infections with emergent highly drug-resistant (eHDR) pathogens, particularly carbapenem resistant enterobacteriaceae and glycopeptides-resistant enterococcus.
In patients who are mechanically ventilated for more than 72 hours weaning failure is a common issue. The Spontaneous breathing trial (SBT) is often done to assess if the patient can be extubated with a high chance of success. However, re-intubation rates are between 15 - 20 % after a successful SBT. The rapid shallow breathing index (RSBI) is an important parameter used in an SBT. Because the high incidence of extubation failure (re-intubation within 48 hours) a search for a better parameter than the RSBI is warranted. Using the measured end-tidal oxygen (etO2) of mechanically ventilated patients it is possible to calculate the VO2, which is a measure of patient effort. The VO2 is a parameter with the potential to predict weaning success or failure, together with other parameters of patient effort like the work of breathing (WOB), pressure time product (PTP) and esophageal pressure swings, reflecting muscle strength of the diaphragm. Therefore, the investigators want to investigate if these parameters are associated with an SBT success or failure.
To study the ability of RRI, measured by bedside Doppler ultrasound, in detecting acute kidney injury in high-risk patients admitted to surgical intensive care unit, Aswan university hospital, compared with renal biomarkers and conventional assessment using urine output and serum creatinine levels.
Critically ill patients admitted to the Intensive Care Unit (ICU) often need to be connected to a breathing machine (ventilator) and are unable to eat. During this time, liquid nutrition is delivered via a feeding tube to the stomach or bowel (termed enteral nutrition (EN)) to ensure nutrition needs are provided until such time that the patient can eat normally. The delivery of nutrition via EN is frequently interrupted due to procedures and changes in the gastrointestinal system that can cause digestion to be slow. One of the main contributors to EN interruptions is fasting prior to removal of the breathing tube (termed extubation). The practice of pausing EN prior to the removal of the breathing tube is historical and based on evidence for patients who are not within the ICU. There is currently no scientific consensus on whether pausing of EN is necessary, or for how long. Because of this, some clinicians choose to pause EN prior to removal of the breathing tube and some clinicians continue to provide EN. This study is a pilot randomised controlled trial of fasting patients for at least 4 hours prior to removal of the breathing tube compared with not pausing EN. The investigators hypothesise that this will reduce the number of hours of fasting in the 24 hours prior to extubation.