View clinical trials related to Critical Illness.
Filter by:The administration of intravenous fluids is ubiquitous in the care of the critically ill. Commonly available isotonic crystalloid solutions contain a broad spectrum electrolyte compositions including a range chloride concentrations. Recent prospective, randomized trials have shown improved patient outcomes with the use of balanced crystalloids compared to saline. There have not been large randomized studies comparing acetate buffered balanced crystalloids to non-acetate buffered balanced crystalloids in the critically ill. BASE will be a pilot study for a large, cluster-randomized, multiple-crossover trial enrolling critically ill patients from the Medical ICU at Vanderbilt University from June 2018 until January 2019. The primary endpoint will be plasma bicarbonate concentration between Intensive Care Unit admission and hospital discharge.
Reactive or secondary thrombocytosis is defined as abnormally high platelet count (≥4,50,000 platelets per micro-liter) in the absence of chronic myeloproliferative disease. In critically ill patients reactive thrombocytosis is not uncommon during recovery phase and an association has been seen with poor outcome and increased risk of subsequent VTE. However, not all patients with infection respond with thrombocytosis. No study has enumerated the risk factors or predictors of reactive thrombocytosis in critically ill septic patients.
This prospective study will compare the pharmacokinetic exposure to liposomal amphotericin B between critically ill patients and non-critically ill (hematology) patients in an early and late exposure day.
Due to an accident, pneumonia or surgery, patients can have severe shortness of breath or lung damage to such an extent that it compromises vital functions. At such times, mechanical ventilation can be lifesaving. The ventilator temporarily takes over the function of the respiratory muscles to ensure adequate uptake of oxygen and removal of carbon dioxide. Mechanical ventilation can usually be stopped quickly after the initial disease has been treated. Unfortunately, in up to 25-40% of ventilated patients it takes several days to weeks before mechanical ventilation can be discontinued, even after treatment of the initial disease. This phenomenon is termed weaning failure. Weakness of the respiratory muscles, such as the diaphragm, is one of the leading causes of weaning failure. Like other skeletal muscles, the diaphragm can become weakened if it is used too little. This happens often during mechanical ventilation because of excessive assistance provided by the ventilator or use of sedative medication. Excessive activity of the diaphragm can also lead to damage and weakness, just like in other muscles that have to perform excessive amounts for a prolonged period of time. Additionally, excessive work by the diaphragm might have a direct damaging effect on the lungs, which leads to a vicious cycle. As such, it is very important to find a balance between resting the diaphragm (which may lead to weakness) and placing excessive work on the diaphragm (which can damage the diaphragm and possibly the lungs). In this study, the investigators want to test whether insufficient activity and excessive activity of the diaphragm during mechanical ventilation can be prevented or reduced. The investigators plan to measure the diaphragm activity in 40 participants on mechanical ventilation. Participants will be randomly assigned to the intervention group or the control group. In the intervention group, ventilator support levels will be adjusted according to the observed diaphragm activity, in an attempt to ensure adequate diaphragm activity. The control group receives usual care. The hypothesis is that adjusting the level of support provided by the ventilator is a feasible method to improve the time that the diaphragm operates within acceptable levels of activity over a 24 hour period.
Red cell distribution width variations are increased in a variety of medical conditions such as congestive heart failure, acute myocardial infarction, pulmonary embolism, pneumonia, critical illness, and cardiac arrest , and is a predictor of mortality in the general population..
Sepsis related cerebral dysfunction was underestimated in critical illness setting, and inflammatory response of brain could not be monitored directly and cerebral oximetry offered information of cerebral dysfunction. We had hypothesized cerebral oxygenation responsiveness during passive leg raising could in some way had association in predicting with the outcomes of septic shock.
A multicenter point prevalence study in Turkish intensive care units.
The purpose of this pilot study is to improve inpatient monitoring of severely-ill children admitted to the hospital in low resource settings at Kenyatta National Hospital in Nairobi, Kenya. Given the high ratio of patients to medical staff in these settings, the lack of reliable patient monitoring tools, and the high rate of early inpatient mortality, we will prospectively train parents as monitoring aids of their hospitalized children. Early recognition and intervention in critical illness is important to avoid (further) organ failure. Parents will be taught how to assess their child's mental status, work of breathing and capillary refill time which will inform a 3-point severity of illness scale. The severity of illness will be conveyed by the parents to the medical staff via color-coded flag system. The goal is to increase the healthcare provider patient reassessment rate according to patients' level of severity to assist in early recognition and treatment of patients' deterioration.
RADAR-2 will be a randomised, open-label, allocation concealed, pilot trial of conservative fluid administration and deresuscitation compared with usual care in patients who are critically ill.
An open label, non-randomized, monocentric, interventional investigation in a cohort of adult critically ill patients