View clinical trials related to Intensive Care Unit.
Filter by:To compare a noninvasive and continuous radial artery blood pressure measurements utilizing ViTrack (developed by Dynocardia) to the standard of care radial artery catheterization, in patients undergoing surgery or those who are being cared for in the intensive care unit
Objectives: To study the composition of the microbiota in critically ill children, and to know the relationship of its microbiota with clinical complications and inflammation biomarkers. Design: Multicenter observational and prospective study including 100 critically ill children admitted in three pediatric intensive care units with a prediction of more than 5 days of stay and 50 healthy children. Clinical parameters and rectal, fecal, blood and respiratory samples will be collected at admission and at pediatric intensive care units discharge. The microbiota and inflammation biomarkers and metabolomic will be analyzed. Analysis of results: Description an evolution of the microbiota throughout the time, intestinal and respiratory, and the influence of clinical and therapeutic factors will be analyzed. The composition of microbiota will be compared with a cohort of healthy children and between the different types of pediatric intensive care units. The correlation of the microbiota with the markers of inflammation, metabolomics and the development of infectious complications and multiorgan failure will be analyzed.
Infection with the SARS-CoV-2 coronavirus (COVID-19) has recently been identified as a pandemic due to the speed and global scale of its transmission. In Auvergne-Rhône-Alpes region (AURA), the epidemic began in February 2020 and the number of infected people is still important. Between 15 and 20% of COVID-19 patients develop an acute respiratory distress syndrome (ARDS) leading to their hospitalization in intensive care. Their clinical progression can be rapidly harmful with the development of severe ARDS associated with an increased risk of death. Preliminary data on the immune response of COVID-19 patients describe the induction of a moderate inflammatory response and the occurrence of major progressive lymphopenia over time associated with potential immunosuppression. Up to 50% of secondary infections are reported in deceased COVID-19 patients. However, no prospective study has exhaustively described the kinetics of the immune response of COVID-19 patients in intensive care. The precise description of the immune response over time in adult patients with a proven infection with the SARS-CoV-2 virus and the study of the relation between this response and the increased risk of organ failure (severe ARDS), death or nosocomial infection will allow us to better understand the pathophysiology of the immune response induced by COVID-19 in order to (i) identify new therapeutic strategies targeting the host response in patients in intensive care (ii) to develop biological markers to stratify patients for future clinical trials evaluating these immunoadjuvant treatments in COVID-19.
Chronic fatigue is the most common and debilitating symptom in intensive care unit (ICU) survivors. Indeed, it has been widely reported that patients who stayed in ICU for prolonged periods report a feeling of tiredness for months to years after ICU discharge. This symptom seems particularly pronounced in Covid-19 patients and may affect their quality of life by decreasing their capacity to perform simple tasks of daily life. The aim of the present project is to determine whether deteriorated neuromuscular function (i.e. increased fatigability) is involved in the feeling of fatigue of Covid-19 patients. Because the causes of this feeling are multi-dimensional, a large battery of tests will allow us to better understand the origin of chronic fatigue. A better knowledge of chronic fatigue etiology and its recovery will allow to optimize rehabilitation treatments to shorten the persistence of chronic fatigue and in fine improve life quality.
In this study, a single‐center, prospective, observational study was adopted to set the cut-off values of diaphragmatic ultrasound results and arterial blood gas results,with the choice of non-invasive oxygen therapy as the gold standard,so as to evaluate the diagnostic value of diaphragmatic ultrasound in the selection of non-invasive oxygen therapy.
Millions of patients survive care in medical and surgical Intensive Care Units (ICUs) every year, only to suffer from a new or accelerated dementia-like process, called post-ICU long-term cognitive impairment (ICU-LTCI). ICU-LTCI causes considerable problems with personal relationships, return to work, and everyday tasks, such as managing medicines and money. No treatment for these patients is currently available. Technology using computerized cognitive rehabilitation could improve ICU-LTCI by harnessing the healing potential of the brain (i.e., neuroplasticity). This intervention is scalable, portable, and economical. The investigators will evaluate the effectiveness of computerized cognitive rehabilitation in a randomized controlled trial of 160 VA patients with ICU-LTCI. The investigators hypothesize that this intervention could improve cognition, and brain structure shown by MRI. This research has high potential to influence rehabilitation strategies for Veteran and civilian ICU survivors.
Sleep disorder and delirium are common problems in intensive care unit (ICU) patients, and may lead to poor prognosis. The investigators' previous study showed that nighttime infusion of low-dose dexmedetomidine improved the sleep quality and decreased the incidence of delirium in ICU patients after surgery. Long-term follow-up of these patients showed that low-dose dexmedetomidine also improved 2-year survival and the quality of life in 3-year survivors. The purpose of this study is to investigate the effect of low-dose dexmedetomidine on the long-term outcome of elderly patients admitted to the ICU after noncardiac surgery.
This study systematically observes in a pragmatic trail under real world conditions the association between strategies of therapy (maximal therapy, withhold, withdraw) and treatment success in three endpoint related initial risk groups (high, intermediate, low risk) regarding three endpoints (burden, mortality and supply costs).
Pleural drainage under local anesthesia is a frequent practice in resuscitation, experienced as an unpleasant and painful event for patients. Pain management is an important issue for early rehabilitation, decrease hospitalisation's cost and shortening the length of stay in intensive care unit (ICU). A new type of locoregional anesthesia called Serratus plane block described by Blanco in 2013 showed a benefit in per and postoperative analgesia in thoracic surgery and carcinologic breast surgery, allowing a decrease in morphine use and an improvement of the patient's general satisfaction. Serratus plane block is a very effective technique in chest wall analgesia, easy and safe to perform, with few complications. No studies to date have evaluated this anesthetic practice in intensive care for pleural drainage. This technique could be used outside the operating room to improve the intensive care patients, who often have heavier pathologies and greater pain, such as patients with chest trauma or patients with cardiac or respiratory disease. The investigators would like to conduct a preliminary study of superiority in the CHU Amiens intensive care unit, to study the interest of the Serratus plane block in comparison with local anesthesia on the management of acute pain during pleural drainage.
The aim is to investigate incidence of HBsAg, anti-HCV in serum samples and evaluation of biomarkers taken from patients who were followed the intensive care unit of Sakarya University Training and Research Hospital and The intensive care unit attracts attention by making health workers more susceptible to the risk of hepatitis.