View clinical trials related to Critical Illness.
Filter by:Adequate nutritional support is an essential element for achieving favourable outcomes in critically ill patients. Therefore, an accurate determination of patients' energy needs is required to optimize nutritional support and reduce the harmful effects of under- and over-feeding. Currently, indirect calorimetry is considered as a gold standard for measuring energy expenditure during critical illness. This randomized study aims to investigate the impact of indirect calorimetry guided nutrition therapy on clinical outcomes such as ICU. Mortality, hospital mortality, duration of mechanical ventilation, length of I.C.U./hospital stay and mascle wasting. The investigators hypothesis that nutrition therapy guided by IC will improve clinical outcomes in severely ill patients
Physical restraints (PR) are widely used in ICU around the world. Many institutions have suggested that the use of PR should be reduced. Clinical practice guidelines (CPGs) are a convenient way of packaging evidence and presenting recommendations to healthcare decision makers. There are currently no CPGs on PR in China, while other countries had, so we hope to be able to adapt existing guidelines to apply in Chinese context. We use the CAN-IMPLEMENT approach to adapt and implement the guidelines.
The investigator will investigate the effect of supplemental enteral protein (1.2 g/kg/day) added to standard formula to achieve high amount of enteral protein (range 2-2.4 g/kg/day) given from ICU day 5 until ICU discharge up to ICU day 90 as compared to no supplemental enteral protein to achieve moderate amount enteral protein (0.8-1.2 g/kg/day), given in conjunction with similar amounts of stepwise caloric administration in the two groups on all-cause 90-day mortality.
Novel coronavirus (SARS-CoV-2: severe acute respiratory coronavirus 2) pneumonia often develop the acute respiratory distress syndrome (ARDS). Lung protective ventilation strategy consisting of low tidal volume and high positive end-expiratory pressure (PEEP) is recommended. However, it is not clear whether injured lungs from SARS-CoV-2 pneumonia have the same mechanical properties, especially response to PEEP as common ARDS. Therefore, the investigators propose an observational study to analyze respiratory mechanics and lung recruitablity using EIT (electrical impedance tomography) in patients with ARDS due to SARS-CoV-2 pneumonia.
The aim of this project is to evaluate the effects of positional changes in mechanically ventilated patients.
Infections in critically ill patients are a major healthcare problem and an important source of morbidity and mortality. Since critically ill patients often have altered pharmacokinetics (PK) compared to non-critically ill patients there is a substantial risk that present standard dosing regimens of antibiotics lead to suboptimal outcomes for patients on the ICU or the ED. To prevent the risk of inadequate dosing in ICU patients, it is important to fully understand the PK of antibiotics in this vulnerable group in order to optimize the dosing regimens. With this study, the investigators will describe the pharmacokinetics of cefuroxime and amikacin in ICU and ED patients. A heterogeneous population of ICU and ED patients will be included to be able to find which factors might influence the pharmacokinetics of these drugs and to what extent. By using population modeling the investigators will simulate different dosing regimens and MIC values and compare probability of target attainment between each of these dose and MIC combinations. This will allow the investigators to optimize dosing regimens of cefuroxime and amikacin in critically ill patients.
This is Interventional clinical trail will be conducted in Internationale hospital ICU s patients with higher nutrition risk. two doses of protein 1 g/kg/day Vs 2 g/ kg day will be given and its outcome will be checked on nitrogen balance , clinical outcome length of hospital stay, mortality ratio and re admission within 30 days.
Neurocognitive impairment is frequently observed in pediatric patients with meningoencephalitis (ME) and sepsis-associated encephalopathy (SAE) which represent two relevant central nervous system (CNS) diseases in pediatric patients. It is uncertain, if the the origin of the disease, located primarily in the CNS of patients with ME or secondarily in patients with SAE in the course of sepsis, is of importance for the severity of injury to the brain. Prospective clinical studies combining clinical and laboratory examinations including specific biomarkers of neuroaxonal injury were not performed in a comparative study. Biomarkers of neuroaxonal injury are therefore not only of great interest to detect and monitor neurocognitive impairment but also to quantify the severity of brain injury in patients with ME and SAE.
The COVID-19 pandemic has led to shortages of intravenous sedatives due to increased ICU patient admissions and greater use of mechanical ventilation. A shortage of sedatives is as concerning as a shortage of mechanical ventilators since critically ill patients require sedation for comfort and to tolerate mechanical ventilation. Anti-adrenergic medications are increasingly recognized for their role in sedation of critically ill patients. Propranolol is a plentiful and inexpensive, non-selective beta-adrenergic blocker with good penetration of the blood-brain barrier, which can reduce agitation and arousal. The study team published a single-centre retrospective study of 64 mechanically-ventilated patients which found the initiation of propranolol was associated with an 86% reduction in propofol dose and a roughly 50% reduction in midazolam dose while maintaining the same level of sedation. Propranolol has the potential to mitigate the threat posed by worldwide sedative shortages and improve critical care management of patients who require mechanical ventilation. This study seeks to evaluate whether the addition of propranolol to a standard sedation regimen reduces the dose of sedative needed in critically ill patients requiring mechanical ventilation. This study is an open-label randomized controlled trial, single-blinded with 1:1 allocation. Both arms will receive sedation according to usual intensive care unit practice with a sedative agent. The intervention arm will additionally receive enteral propranolol 20-60mg q6h titrated up over 24-48h until intravenous sedative doses have fallen to a minimal level (propofol <0.5mg/kg/h or midazolam <0.5mg/h) or the maximum dose of propranolol is reached. Intravenous sedative doses will be titrated downwards in response to sympatholysis produced by the propranolol, as evidenced by a decreasing heart rate or blood pressure. The control arm will receive sedation without the addition or propranolol. The primary outcome will be the change in primary sedative dose from baseline to Day 3 of enrollment. Analysis of the primary outcome will be a difference in differences; the change in sedative dose from baseline to Day 3 in the intervention group versus the same change in the control group. The Mann-Whitney U test will be used as a nonparametric test of independent samples for this outcome.
COVID19 is n outbreak with unpredictable outcome