Systemic Oxygenation vs ROS Formation in TBI Patients Clinical Trial
Official title:
Formation of Reactive Oxygen Species in Patients With Severe Traumatic Brain Injury in Normal vs Increased Oxygenation.
This project an observational study performed on patients with severe Traumatic Brain Injury (TBI) treated at Neurosurgical ICU (NICU) at Karolinska University Hospital. The purpose of this study is to evaluate the effects of various oxygenation levels on production rate of Reactive Oxygen Species (ROS) in patients with severe traumatic brain injury (TBI). The patients will be included in the study after the placement of intracranial monitoring device consisting of intracranial pressure gage (Codman), microdialysis (MD), and Licox oxygen electrode for measurement of partial pressure of oxygen in brain tissue (pBtO2). Intracranial monitoring is inserted on clinical indications and is used for early detection of deleterious processes in brain tissue such as hypoxia or hypoperfusion and for purpose of guiding of given therapies such as cerebral perfusion pressure (CPP), oxygenation, dosage of vasoactive drugs etc. Despite the technical possibilities to monitor all these physiological parameters, there are no clear guidelines how to interpret the MD and pBtO2 data and implement it in clinical decision making. One of the controversies deals with optimization of oxygen levels: some authors point out the importance of adequate brain tissue oxygenation, whereas other researchers are worried about the possible negative effects of excessive oxygen levels such as increased production of ROS or facilitating pulmonary atelectasis, contributing to adverse outcome. The purpose of this study is to investigate the effect of various oxygenation levels on ROS production in TBI patients. This pilot study is designed to measure short-lived ROS in blood and microdialysis fluid samples of TBI patients during alternating periods of normal vs temporarily increased oxygenation levels under normobaric conditions (normal atmospheric pressure).
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