View clinical trials related to Critical Illness.
Filter by:This is a randomized, double-blinded study to evaluate the analgosedative effect of ketamine in a surgical intensive care unit. The patients who will receive continuous fentanyl infusion for either pain control or sedation will be recruited in this trial. Fentanyl will be titrated with initial loading doses of 20 mcg until the numeral rating scale(NRS) less than 4 or critical care pain observation tool (CPOT) less than 3 or Richmond agitation sedation score (RASS) -2-0. Then the patients will be randomised in to receive saline infusion in control group (Group C) or ketamine infusion in ketamine group (Group K). Ketamine will be administered with an initial bolus of 0.3 mg/kg followed by a perfusion of1.5 mcg/kg/min during the first 48 h. The dose of fentanyl will be protocolized adjusted according to NRS or CPOT or RASS. We tested the research hypothesis that low-doseketamine infusion is associated with a reduced fentanyl dose without increased vulnerability to its psychotropic effects.
The objective of this study is to assess the parathyroid hormone serum concentrations and kinetics in critically ill patients admitted to the intensive care unit due to multi-organ failure and undergoing citrate anticoagulation continuous renal replacement therapy.
The Pilot Optimizing Transfusion Thresholds in Critically-ill Children with Anaemia (P-OpTTICCA) study is a pilot trial for a large pragmatic international parallel open-label non-inferiority randomised controlled trial. The primary outcome of the pilot study is feasibility.
Tracheostomy is an important tool in the management of respiratory failure in the critically ill patient under mechanical ventilation. Although mechanical ventilation can be a lifesaving intervention, it is also known to carry several side-effects and risks. Among the most frequent complications of mechanical ventilation, obstruction of the airway secondary to a mucus plug is both life threatening and a prevalent phenomenon related to mucociliary system dysfunction, artificial airway itself and the loss of strength that prevents adequate airway clearance. The main indication of tracheostomy is the need for prolonged mechanical ventilation that usually occurs in more severe patients, this circumstance having also been related to the development of intensive care unit (ICU) acquired weakness. Currently, the approach to secretion clearance in critical patients is focused on rehabilitation therapy and humidification. Hypertonic saline (HS) is largely used in cystic fibrosis to increase airways clearance while little evidence is available in other settings although promising results have been reported. In this sense, the use of HS could be beneficial in the prevention of airway obstruction in tracheostomized critical patients.
There is a need to know more about the safety of mobilizing intensive care unit (ICU) patients who are receiving vasoactive drugs that support the heart and blood pressure. But before this research can be done, several uncertainties need to be addressed. To answer these uncertainties, the investigators will ask ICU patients receiving vasoactive drugs to take part in a study in three main stages. Firstly ICU patients will be asked whether they would be happy to take part in a future research trial on the safety of mobilizing patients who are receiving vasoactive drugs. Secondly, data will be collected about the current mobilization on vasoactive drugs that occurs. Finally, the investigators will try to follow up these patients 60 days after they start the study, to carry out some questionnaires and a walking test with the patients. These tests may be used in future research to measure the effect of mobilizing patients on vasoactive drugs.
Pilot explanatory, randomized, open label, controlled trial. Critically ill patients which will demand placement of invasive devices for organ support (endotracheal tube, central venous catheter and urinary Foley catheter) will be randomized 1:1 to receive coated (Bactiguard®) or habitual (non-coated) devices.
Patients with septic shock would be screened. Following this, patients meeting the inclusion and exclusion criteria will be screened and randomized to the two treatment groups. Standard criteria will be considered to define refractoriness to fluids. In all patients, baseline endotoxin activity assay and blood and urine sample will be stored for looking at the effect of therapy on these factors. Septic shock would be defined as clinical construct of sepsis with persisting hypotension requiring vasopressors to maintain MAP>=65 mm of Hg and having a serum lactate >2 mmol/L despite adequate volume resuscitation. Patients assigned to the treatment arm and who do not already have access for dialysis will have a standard hemodialysis catheter inserted in one of the femoral veins by the physician. Hemoperfusion will be carried out for one session within 12 hours for all randomized patient using the adsorption columns for Jianfan Biotechnology Co., Zhuhai, China). The hemoperfusion apparatus will be connected in front of the hemodialyzer in series. The procedure would be done for 2 hours without use of heparin with use of normal saline for pipeline flushing. In patients who also require hemodialysis the dialysis would subsequently be continued. Subsequent sessions of therapy would be done for patients (if required).
Normal gut bacteria prevent colonization and subsequent infection with MDR organisms (MDROs) through competition for resources and other mechanisms. During critical illness, this function of the microbiome is lost and there are no current treatments to restore it. Preliminary data indicates that the prebiotic fiber inulin is safe and may alter the gastrointestinal microbiome to improve gut barrier function, decrease colonization with MDROs, and reduce downstream risk for intensive care unit (ICU)-acquired MDR infections. However, the impact of inulin during critical illness is unknown. This double-blind, randomized clinical trial will test inulin for the prevention of antibiotic resistant infections in the ICU. The trial's specific aims are to determine (1) the feasibility, tolerability, and safety of inulin in the intensive care unit; (2) the impact of inulin on gut colonization with antibiotic-resistant pathogens; and (2A/exploratory) the impact of inulin on ICU-acquired antibiotic-resistant infections.
Diagnostic error and delay remain a leading cause of preventable harm and death in the United States. Using a learning laboratory structure, researchers will implement mixed-methods research approaches to identify the systemic weaknesses that contribute to diagnostic error and delay in the hospital setting. The knowledge gained from research innovative will allow researchers to design, develop, implement, and refined a suite of human-centered tools that can be deployed to reduce the risk of diagnostic error and delay in both community and academic hospital settings.
The purpose of the study is to describe the change in muscle mass in critically ill patients. The study will examine rectus femoris cross sectional area with ultrasound and identify risk factors of this changes.