View clinical trials related to Critical Illness.
Filter by:After providing written informed consent, the first 20 Subjects meeting Inclusion/Exclusion Criteria will be consecutively enrolled in the Standard of Care cohort. The moderate treatment cohort will then be consecutively enrolled, followed by the tight glycemic control cohort. After sensor insertion, baseline evaluations including APACHE II, SOFA, and laboratory evaluations will be determined. Subjects enrolled in the standard of care cohort will be treated according to the institution's protocol for measuring glucose and managing insulin. These subjects will be monitored on a GlucoClear System but they will not be managed based on the values or trends of the GlucoClear system. Subjects enrolled in the treatment cohorts will be monitored and managed with a special version of the GlucoClear continuous monitoring system. This system contains the GlucoClear Insulin Dosing Algorithm providing insulin dosing recommendations to enable the clinician to manage patient glucose within pre-specified target levels. These recommendations are presented on screen for a clinical professional to approve or override. Subjects in the moderate treatment cohort will have their glucose managed in the range of 120 - 180 mg/dl. Subjects in the tight glycemic control treatment cohort will be managed in the range of 80 - 120 mg/dl. After discharge from the ICU, subjects will followed for adverse events and mortality at 30 days, either by telephone contact or office visit.
Transcranial Doppler ultrasound is bedside tool use to assess cerebral blood perfusion in critically ill patients. We sought to conduct a prospective, single centre study aiming to determine whether chronic vascular diseases may be a confounder in transcranial Doppler ultrasound assessment in critically ill patients.
A feasibility study to determine if it is possible to perform a safe, adequately powered, and affordable multi-centre study in critically ill children comparing current practice of liberal targets for systemic oxygen levels with more conservative targets.
The objective of this study is to describe the pharmacokinetics of tigecycline in critically ill patients receiving continuous venovenous haemodialysis (CVVHD) and to evaluate the frequency of pharmacokinetic/pharmacodynamic target attainment with high dosing strategy (200 mg loading dose and 100 mg/12h).
Follow-up after treatment with Extracorporeal Membrane Oxygenation (ECMO) at the ECMO Center Karolinska. Patients: adult survivors treated with ECMO for severe refractory respiratory failure at least 5 years earlier. Investigations: brain and pulmonary radiographic morphology, cognitive testing, pulmonary function testing, exercise tolerance, quality of life and mood disorder screening.
The aim of this study is to compare the effect of dexmedetomidine on resting energy expenditure in relation to the midazolam in critically ill patients using indirect calorimetry
The purpose of this study is to describe the changes in quadriceps muscle size and quality over the first 10 days on extracorporeal membrane oxygenation (ECMO) using ultrasound imaging. This study will also examine the relationship between those changes and muscle strength and level of physical function at day 10 and day 20 after ECMO commencement.
Muscle wasting is a significant problem in critically ill patients, with reported losses of a half to three percent per day over the first ten days (for an average 70kg person this equates to 3 to 20kg of muscle loss). Low skeletal muscle mass at admission to the intensive care unit (ICU) and the loss of lean tissue have been associated with negative clinical outcomes, including increased incidence of infections, length of stay, mortality and muscle weakness. It is therefore crucial that technology is utilised to: 1) identify ICU patients with low muscularity on admission, 2) to help understand the factors impacting muscle loss and to 3) assess the effectiveness of interventions aimed at maintaining skeletal muscle mass in this population. The measurement of lean body mass in patients admitted to the ICU is challenging however, due to the large fluid shifts that occur in this population and logistical issues in moving patients to specialised machinery for body composition analysis. Currently, there is no validated method for accurately assessing a patient's muscle mass at the bedside in the intensive care setting. It is therefore important to investigate the accuracy, feasibility and reliability of bedside methods such as subjective physical assessment of muscle mass, mid arm muscle circumference, ultrasound and bioimpedance analysis to assess muscularity in this population who are primarily bedbound. In order to do this, a critical comparison is required between these methods and muscularity assessed by a "reference" body composition method, such computed tomography (CT) image analysis. Briefly, quantification of skeletal muscle at the abdomen area utilising abdominal CT images has been shown to be highly representative of whole body skeletal muscle volume. We wish to conduct a pilot, feasibility study (n= 50), which will recruit patients who have a CT scan (containing abdomen area), performed for clinical purposes. Our primary aim will be to investigate whether muscularity assessed with non-invasive bedside methods (ultrasound, bioimpedance analysis, SGA physical assessment, mid arm muscle circumference) are correlated with skeletal muscle mass quantified by a "reference method" (CT image analysis).
Enteral administration of immune-modulating nutrients such as glutamine, omega-3 fatty acids, selenium, and antioxidants has been suggested to reduce infections and improve recovery from critical illness. However, the effects of colostrum on clinical outcomes in critical ill patients has not been investigated. In current trial, intensive care unit patients with enteral feeding will receive either enteral colostrum or maltodextrin as placebo.
Sedative and analgesic agents are widely used in the ICU. These agents can provide hypnotic effect, pain alleviation, cooperation, and synchronizing ventilatory support. Prolonged use of the agents can lead to withdrawal symptoms when the drugs are weaned. Prior study showed the longer duration of sedative drugs, cumulative dose of medications and younger age were the risk factors of withdrawal syndrome. Additional, some study showed the sedation protocol can reduce the incidence of withdrawal syndrome. However, no worldwide standardized sedative weaning protocol including our hospital. The objectives in this study are to establish the sedative weaning protocol and to compare the protocol sedative weaning with the usual care weaning.