Clinical Trials Logo

Clinical Trial Summary

Objectives: 1. To study the short- and long-term effect of two different PaO2 targets on circulatory status, organ dysfunction and outcome in patient admitted to the ICU with Systemic Inflammatory Response Syndrome (SIRS) criteria. 2. To study underlying mechanisms of hyperoxia by determining differences in oxidative stress response between the hyperoxic and the normoxic patients. Study design: Randomized, prospective multicentre clinical trial Study population: Patients admitted to the Intensive Care unit with ≥ 2 positive SIRS-criteria and an expected ICU stay of more than 48 hours Intervention: Group 1: target PaO2 120 (105 - 135) mmHg (high-normal) Group 2: target PaO2 75 (60 - 90) mmHg (low-normal) Primary endpoints: The primary endpoint will be cumulative daily delta SOFA score (CDDS) from day 1 to day 14.


Clinical Trial Description

Rationale: Contrary to hypoxia, many physicians do not consider hyperoxia harmful for their patients. To prevent hypoxia, superfluous administration of oxygen is common practice, and hyperoxia is seen in many patients, especially on Intensive Care units. However, an increasing number of studies not only confirm the known negative pulmonary effects of chronic oxygen oversupply, but also important and more acute circulatory effects, characterised by decreased cardiac output (CO), increased systemic vascular resistance (SVR), and impaired microvascular perfusion. These phenomena can impair perfusion of organs, which may outweigh higher arterial oxygen content, resulting in a net loss of oxygen delivery and perturbed organ function. This may for example be responsible for hyperoxia-associated increased infarct size and increased mortality after myocardial infarction and cardiac arrest. The underlying mechanisms are not clarified yet, but probably involve increased oxidative stress with systemic vasoconstriction. On the other hand, hyperoxia can also induce several favourable effects. The majority of ICU-patients have a systemic inflammatory response syndrome (SIRS) with concomitant vasoplegia due to trauma, sepsis or ischemia/reperfusion injury. Vasoconstriction could benefit these patients with severe SIRS, reducing the need for intravenous volume resuscitation and vasopressor requirements. Furthermore, hyperoxia may exert a preconditioning effect in patients with ischemia/reperfusion injury and prevent new infections due to its antibacterial properties. Hypothesis: Hyperoxia during SIRS ultimately has unfavourable effects on organ function, especially on a longer term. Objectives: 1. To study the short- and long-term effect of two different PaO2 targets on circulatory status, organ dysfunction and outcome. 2. To study underlying mechanisms of hyperoxia by determining differences in oxidative stress response between the hyperoxic and the normoxic patients. Study design: Randomized, prospective multicentre clinical trial Study population: Patients admitted to the Intensive Care unit with ≥ 2 positive SIRS-criteria and an expected ICU stay of more than 48 hours Intervention: We will investigate 2 groups with PaO2 targets both within the range of current practice Group 1: target PaO2 120 (105 - 135) mmHg (high-normal) Group 2: target PaO2 75 (60 - 90) mmHg (low-normal) ;


Study Design


Related Conditions & MeSH terms

  • Systemic Inflammatory Response Syndrome

NCT number NCT02321072
Study type Interventional
Source VU University Medical Center
Contact
Status Completed
Phase Phase 4
Start date February 2015
Completion date May 2019

See also
  Status Clinical Trial Phase
Completed NCT02902939 - Myeloid-Derived Supressor Cells in Cardiac Surgery Patients N/A
Completed NCT02518087 - Increased Adsorption Membranes During Cardiopulmonary Bypass N/A
Completed NCT02563652 - Can Biomarkers Aid in the Prediction of Postoperative Pain and Circulatory Instability After Major Abdominal Surgery?
Recruiting NCT01157299 - Hemodynamic Evaluation of Preload Responsiveness in Children by Using PiCCO N/A
Completed NCT01388725 - Comparison the Value of Several Biomarkers of Sepsis N/A
Unknown status NCT00254176 - Cysteine Supplementation in Critically Ill Neonates Phase 2/Phase 3
Not yet recruiting NCT03617796 - Prognostic Value of CD64 Marker for Patients in Intensive Care Unit
Completed NCT03876041 - Evaluation of Corticosteroid in Systemic Inflammatory Response Syndrome Phase 4
Recruiting NCT05608096 - European Registry for Hemadsorption in Sepsis With the Seraph Filter
Completed NCT03314831 - The Role of Myristic Acid in Serum for Early Diagnosis of Sepsis and Comparison With Selected Biomarkers of Sepsis
Completed NCT02568410 - Platelets as Regulators of Inflammation in Cardiac Surgery
Completed NCT01636232 - Vitamin D and Critically Ill Patients N/A
Completed NCT01020409 - INFLACOR - Clinical and Genetic Predictors of Inflammation Related Complications After Heart Surgery Phase 4
Completed NCT04624776 - Steroid Treatment After Resuscitated Out-of-Hospital Cardiac Arrest Phase 2
Recruiting NCT05172739 - Opioid Free Anaesthesia-Analgesia Strategy on Surgical Stress and Immunomodulation in Elective VATS-Lobectomy for NSCLC Phase 4
Recruiting NCT02957175 - Immunophenotyping of Patients With Postoperative SIRS
Completed NCT02320539 - MicroRNA Diagnostics in Subarachnoid Hemorrhage 2 N/A
Completed NCT01708759 - IL8 Monitoring and Its Correlation With 251-gene Polymorphism N/A
Terminated NCT00708799 - Efficacy of Macrolide Immunomodulation in Severe Sepsis. Phase 2
Recruiting NCT04580680 - Extracorporeal Blood Purification Therapy in Critically Ill Patients (GlobalARRT)