View clinical trials related to Critically Ill.
Filter by:Early mobilization in Ventilated sEpsis & acute Respiratory failure Study: EVER Study
The study will describe characteristics of pediatric cancer patients admitted to Italian PICUs and will analyze risk factors of PICU admission, neurological outcome, and mortality. After a retrospective analysis (2019-2020), investigators will perform a prospective study over 12 months gathering data from 15-20 Italian PICUs.
This pilot trial is part of a long-term research program leading to a large trial to determine if a strategy of supplementing protein in a subset of critically ill children is superior to standard enteral nutrition care. The investigators hypothesize that protein supplementation to critically ill children with body mass index (BMI) z-score <0 reduces the length of stay in the paediatric intensive care unit (PICU) and hospital, as well as the duration of mechanical ventilation (MV).
Vitamin D deficiency is highly prevalent in critically ill adult and pediatric population that causes multiple adverse health outcomes including higher illness severity score, increased morbidity and mortality, multiple organ dysfunction, longer duration of Mechanical ventilation, longer duration of Oxygen therapy and increased length of stay (LOS) in PICU and hospital. Vitamin D deficiency is a modifiable risk factor that can be corrected with high dose of vitamin D supplementation to improve the clinical outcome. This study is designed to determine whether random vitamin D supplementation within dose limits improves clinical outcomes in critically ill children.
There is a lack of data whether colonization and infection with Enterobacteriaceae of the third group (EB3) affect the outcomes for ICU patients. This study evaluated the effects of EB3 colonization and infection on ICU mortality, ICU length of stay (LOS) and broad-spectrum antibiotic exposure. We focused on the sub type Enterobacter regarding its a priori higher risk of resistance.
Rationale: There is large heterogeneity in disease states of critically ill patients at ICU admittance and there is also large heterogeneity in their disease severity during ICU stay. Still, some patients may show remarkable similarities in disease patterns. There is a lack of understanding of causal mechanisms that lead to divergent outcomes in critically ill patients, and at the same time different diseases may share common underlying, yet unidentified, causal pathways that could explain similarities between different diseases. Objective: To explore the association between patient characteristics and the severity of organ failure in critically ill patients admitted to the ICU Study design: Prospective cohort study Study population: Adult critically ill patients in the ICU Intervention (if applicable): not applicable Main study parameters/endpoints: Maximum severity of organ failure observed during ICU stay measured by the maximum SOFA score and quality of life at one year follow-up
The purpose of this study is to determine the most suitable dose of Fludrocortisone in reversal of sepsis and shock associated with sepsis in patients who are admitted to the ICU. The investigators will be looking to see whether patients receiving Fludrocortisone at different doses recover quicker and spend less time in hospital and in ICU, and to understand the reasons why this happens at certain doses. Sepsis is caused by toxic substances (toxins) from bacteria and other organism entering the bloodstream from a site of infection. In some people, the infection can progress to sepsis and septic shock where the functions of organs in the body are affected. Patients suffering from sepsis and septic shock are commonly managed in the intensive care unit (ICU) where they are prescribed antibiotics as standard therapy, as well as other therapies to support the functions of the body. Fludrocortisone is a steroid that has previously shown to be beneficial to help in shock in patients in ICU, but more information is required about the exact dose that is required to achieve this. This has been shown by previous research. However, the exact role of Fludrocortisone and the best dose has not been studied adequately to date as well as the ways in how it works within the body. The study aims to look tat the dose and the way it works.
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.
Outcome of stroke patients admitted to the intensive care unit the intensive care unit (ICU) is poor and haemorrhagic stroke, fixed dilated pupil(s) and GCS <10 are associated with increased mortality and poor functional outcome. However little is known about the impact of clinical events occuring during the ICU stay (ventilator acquired pneumoniae, shock, dysglycemia....). The objective of this study was to determine the mortality rate and the functional outcomes of stroke patients admitted to ICU and to identify predictors of poor outcome in this population.
A recent systematic review reported that the prevalence of enteral nutrition intolerance in critically ill patients ranged from 2% to 75%, and the pooled rate was 38.3%.Many randomized controlled trials have reported that the incidence of pneumonia, regurgitation and aspiration do not correlate well with gastric residual volume (GRV) monitoring. In addition, it was reported that GRV monitoring may cause more frequent obstructions in the enteral tube access, leading to greater loss of time for intensive care unit nurses and patients receiving less than the prescribed daily intake due to enteral nutrition interruptions. The most recent SCCM/ASPEN guidelines in 2016 recommended that GRV monitoring not be included in the daily care protocol, but many institutions still use it to determine whether to continue enteral nutrition or to detect enteral tube-feeding intolerance. This study aimed to evaluate the relationship between ultrasonographic gastric antral measurements and aspirated gastric residual volume GRV in mechanically ventilated critically ill patients receiving enteral tube feeding via nasogastric, orogastric, or percutaneous gastrostomy tubes.