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Organ Dysfunction Syndrome clinical trials

View clinical trials related to Organ Dysfunction Syndrome.

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NCT ID: NCT05623722 Recruiting - Sepsis Clinical Trials

Erector Spinae Plane Block Improves Organ Dysfunction in Septic Patients With Acute Gastrointestinal Injury

Start date: December 29, 2022
Phase: N/A
Study type: Interventional

This study is a prospective, multicenter, parallel-group, open-label, randomized controlled clinical trial. Sepsis is defined as organ dysfunction induced by infections. And sepsis and gastrointestinal injury can be the leading cause for each other. Our previous study showed erector spinae plane block improved the organ dysfunctions in patients with AGI. The aim of the clinical trial is to investigate erector pinae plane block improves the organ dysfunction in septic patients with acute gastrointestinal injury.

NCT ID: NCT05382065 Recruiting - Anemia Clinical Trials

Anemia and Duration of Mechanical Ventilation

Start date: July 8, 2022
Phase:
Study type: Observational

In mechanically ventilated patients in intensive care unit, anemia is commonly seen and it is probably associated with adverse outcomes including mortality. We aim to investigate the impact of duration of anemia and the duration of mechanical ventilation as well as clinical outcomes in critically ill patients in intensive care unit who required ventilatory support >96 hr.

NCT ID: NCT05304715 Completed - Mortality Clinical Trials

Bezlotoxumab Yielded Outcomes by Addressing Personalized Needs in Clostridioides Difficile Infection

BEYOND
Start date: April 13, 2022
Phase: Phase 2
Study type: Interventional

Previous data have shown that integrated information from single nucleotide polymorphisms (SNPs) of the host DNA, interleukin 8 (IL-8) and the enrichment of the stool microbiome can indicate the patients with infection by Clostridioides difficile (CDI) who are at risk for unfavorable outcome. This integrated information is forming the BEYOND score. The aim of the BEYOND randomized clinical trial (RCT) is to investigate if adjunctive bezlotoxumab treatment to the current standard-of-care may decrease the likelihood of unfavorable outcome for patients who score positive by the BEYOND score.

NCT ID: NCT04680728 Completed - Clinical trials for Organ Dysfunction Syndrome

Venous Congestion and Organ Dysfunction.

CoDoRéa
Start date: October 6, 2020
Phase:
Study type: Observational

Venous congestion, which is a phenomenon described in cardiology and post-operative cardiac surgery, is responsible for an increase in morbidity and mortality. Indeed, it can lead to kidney failure, liver failure, prolonged ileus, scarring complications, and neurological disorders. Clinical and ultrasound indications have been described to diagnose this condition. To date, this phenomenon is poorly known and not described in intensive care patients outside the cardiac context. However, intensive care patients can present the risk factors associated with the occurrence of congestion: acute cardiac failure, significant water-salt overload, and/or fluid distribution anomalies. Thus, observational studies have found an association between the input-output balance, the quantity of salt-water intake, the presence of right heart dysfunction and the occurrence of acute kidney failure, digestive disorders, hypoxemia and a prolonged stay in intensive care. The presence of a congestive condition is medically treatable since diuretic decongestion is associated with improved cardiac outcomes. It is therefore necessary, in an intensive care context, to be able to define and diagnose this state of venous congestion, to study its prevalence, and to confirm the existence of a link with organ failure in order to pave the way to known adapted treatment options.

NCT ID: NCT04463745 Recruiting - Liver Diseases Clinical Trials

Organ Dysfunction Associated With Intra Abdominal Pressures in Liver Transplantation

OIL
Start date: July 15, 2020
Phase:
Study type: Observational

Patients with end stage liver disease have varying degrees of intra-abdominal hypertension (IAH) due to the presence of ascites. The perioperative events may either relieve or aggravate the intra-abdominal pressures. Intra-abdominal hypertension has damaging effect on various organ systems. There is an increase in intracranial pressures and a decrease in cerebral perfusion pressures associated with IAH . In the heart, there is an increase of right atrial pressures, increase in systemic vascular resistance and decrease in cardiac output . Pulmonary complications include increase in the peak, mean and plateau airway pressures, with decreased compliance . Renal dysfunction is an early effect of raised intra-abdominal pressure, resulting from decreased renal blood flow, shunting of blood to the medulla, mechanical compression of the kidneys and increased pressures in the renal veins . We would study the intra-abdominal pressures in liver transplant recipients and record hemodynamic, respiratory, cardiac and renal function prospectively. Follow up data for 6 days for neurological, respiratory, cardiac and renal complications will be collected, along with hospital stay, ICU stay and mortality. The association between intra-abdominal pressures and these outcomes will be analysed.

NCT ID: NCT03173196 Completed - Encephalopathy Clinical Trials

Prospective Analysis of Septic Associated Encephalopathy Using the Non-invasive Acoustocerebrography-ACG

SAEACG
Start date: June 1, 2016
Phase: N/A
Study type: Observational

The patients of the group "sepsis" are measured several times with the non-invasive multi-spectral sonography (Sonovum "ACG-Diagnosesystem") (days 1, 3, 7 and 14). The patients of the group "control" are measured on days 1 and 3 with the system. A measurement takes 3 minutes. For this purpose two ultrasound heads are placed above the patient's ears and fixed with an all-head harness. The device is certified for CE application. There are no known health risks of ultrasound in humans.

NCT ID: NCT01486121 Completed - Surgery Clinical Trials

Sedation Optimisation Strategy (S.O.S.) Ventilation

Start date: December 2011
Phase: Phase 3
Study type: Interventional

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.

NCT ID: NCT01049529 Completed - Severe Sepsis Clinical Trials

Effect of Docosahexaenoic Acid on the Inflammatory Response and Clinical Outcomes From Surgical Patients

DHA-IRCO
Start date: March 2007
Phase: Phase 2
Study type: Interventional

The purpose of this study is to evaluate if enteral docosahexaenoic acid (DHA) administration attenuates the inflammatory cytokines and improve clinical outcomes in neonates who underwent cardiovascular surgery