View clinical trials related to Intensive Care Unit Syndrome.
Filter by:This project seeks to describe the incidence of delirium in the Intensive Care Unit (ICU) and to identify risk and preventive factors associated with development of delirium. Especially, the investigators want to investigate if an imitated natural light/dark cycle influences frequency of delirium.
In the last few years, acute renal injury (AKI) definition has been significantly changed. In the light of the data obtained from multicenter international studies, acute renal injury was redefined according to RIFLE, AKIN and KDIGO criteria. The common criteria of all three criteria in acute renal failure is the increment of level of creatinine as 0.3 mg/dL or 50 % increment of respective basal value of serum creatinine. In the current study, older than 40 years patients with no specific gender, who will stay at least one night in hospital will be included and cardiovascular and urological surgery patients and patients with known renal insufficiency will be excluded. It was aimed to measure serum creatinine levels in all included patients at baseline and up to 24h after surgery and will be determined acute kidney injury incidence and risk factors according to new criteria.
Increasingly patients with critical illness requiring life support in an intensive care unit are surviving their hospital admission. Currently the investigators do not know what effect the ICU admission, and the life support, has on their long-term quality of life and whether they can return to their pre-illness level of function following ICU. The investigators aim to test telephone follow-up of ICU survivors in assessing function and quality of life six months after ICU admission. Additionally, the investigators will identify if there are factors that lead to poor recovery. The investigators hope this can influence and change current ICU practice to improve recovery and long-term outcomes for patients. The investigators aim to select a total of 300 patients from ICU, 75 patients from each of the four ICUs. If they survive to hospital discharge, patients and their relatives will receive a telephone questionnaire at 6 months after the ICU admission that aims to assess their long-term outcomes, including physical, cognitive and emotional function, quality of life, and whether they have been able to return to work following ICU.
The aim of this study is 1. to describe levofloxacin pharmacokinetics in ICU patients suffering from pneumonia with taking into account physio-pathological parameters. 2. to verify clinical and bacteriological efficiency and to know if the peak/Minimum Inhibitory Concentration (MIC) ratio > 5 and Area Under Curve (AUC) /Minimum Inhibitory Concentration(MIC) ratio > 125. No therapeutic drug monitoring will be performed in this study.
Use of sedatives and analgesics is common in mechanically ventilated patients hospitalized in Intensive Care Unit (ICU). That is called " sedation " and aimed to reduce both pain and anxiety and also to allow an effective and atraumatic mechanical ventilation. However, sedation excess and ventilator support excess, both in duration and intensity, are associated with an excess morbidity. Patients usually are systematically sedated after having been intubated. Then, sedation is stopped first before ventilator support is weaning. Several studies shown that rationalized protocols of sedation and ventilation orderings had a beneficial impact on non surgical patients' outcome. Feasibility of these protocols in surgical patients is still unknown. Moreover, no study has evaluated an optimized paired strategy of sedation-ventilation based on the priority setting of ventilation. This priority setting of ventilation should increase patient's comfort in spite of increasing sedatives and analgesics dosing. An paired sedation-ventilation protocol optimized for both duration and intensity of these treatments could improve surgical patients' outcome in ICU.
The purpose of this study is to identify within a cohort of ICU patients admitted for severe illness those who are at risk of death in the year following the discharge from ICU.
Our purpose of this study is to determine whether bright light therapy is effective for reducing the incidence and the duration of delirium compared to the usual treatment in patients at the Intensive Care Unit. Our hypothesis is that bright light therapy is effective for reducing the incidence and duration of delirium in patients at the Intensive Care Unit Patients will be assigned to a chamber with or without bright light therapy. This assignment is based on occupation of ICU beds and availability of nurses and is therefore independent from patients characteristics. Patients will be included following the inclusion criterion and exclusion criteria. Patients assigned to a chamber with bright light therapy will receive light therapy for three hours in the morning, from eight o'clock till eleven o'clock. The Confusion Assessment Method-score (CAM-score) and the Richmond Agitation Sedation Scale-score (RASS-score) will be performed three times at one day by ICU nurses, this is according to the existing routine. Besides this, an extra CAM-score and a clinical assessment will be performed once a day by a trained non-clinician, to determine the presence of delirium. The use of sedatives, haldol and fixation will be registered to determine the occurrence, duration and severity of delirium. Eventually the most important outcomes will be the clinical assessment of the patients, the CAM-score and the use of haldol. The primary outcome of this study is the duration of delirium, defined in number of days.
Abdominal Compartment Syndrome (ASC) is defined by an Intra Abdominal Hypertension (IAH) associated with a new organ failure. The occurrence of this syndrome is not well known in infants. Preterm birth is frequently associated with gastrointestinal complications, particularly Necrotizing Enterocolitis. In this pathology it is likely that the intra abdominal pressure (IAP) increases and can participate in the occurrence of organ failures. Newborn, in particular with digestive malformation as diaphragmatic hernias, gastroschisis, could themselves be suffering from this syndrome. It would be interesting to make early diagnosis in order to optimize the management of these children. This requires reliable measurements methods and standards. Intravesical Pressure (IVP) is the most reliable validated indirect method to measure intra-abdominal pressure. In order to measure the IVP, the bladder must contain a minimum of liquid. However, using inappropriate volumes could give erroneous IAP readings. The optimal amount of saline to inject in older children, determined from pressure-volume curves study is 1 ml/kg. In preterm and term infants, this volume appear extremely low (e.g. 0 8cc if taking a child to 800 g). The question that arises is whether this quantity is sufficient to obtain reliable and reproducible measurements of IVP in preterm and term.