Subarachnoid Hemorrhage Clinical Trial
Official title:
Continuous Monitoring of Cerebral Metabolic State. Combined Intracerebral and Jugular Bulb Microdialysis in Neurocritical Care.
The first aim of this study is to investigate the frequency and severity of a specific pathological metabolic pattern, mitochondrial dysfunction, of the brain in comatose patients under neurocritical care. This pattern is recognized as a complication after compromised blood flow to the brain and may be amenable to treatment. The other main aim of this study is to correlate patterns of metabolites between brain and jugular venous blood. It is probable but not proven that jugular venous microdialysis can mirror the global metabolic state of the brain.
Purpose
To describe the incidence of cerebral mitochondrial dysfunction in comatose patients admitted
to the Neurointensive Care Unit (NICU) at Odense University Hospital and to evaluate the
possible correlations between cerebral and jugular bulb microdialysis in an effort to develop
new, effective and less invasive diagnostical tools for relevant patient groups.
Background
The hallmark of several serious neurological and neurosurgical disorders including severe
traumatic brain injury, intracranial haemorrhage, cerebral infection and global hypoxic
injury after cardiac arrest, is that the primary insult is out of reach for therapeutic
intervention. Secondary injuries however, ensuing in the days to weeks after the primary
insult are amenable to prevention or treatment. Inflammation, transient ischemia, free
radical formation, cellular Ca2+-influx and mitochondrial dysfunction are therefore all
examples of current research topics in neurointensive care.
The research group has a long history of experimental and clinical work in the area of
cerebral metabolism in neurocritical disease. In recent years neuromonitoring with cerebral
microdialysis has been a main focus, as well as mitochondrial dysfunction as a possible
therapeutic target . In 2004 the investigators showed how monitoring SAH-patients with
cerebral microdialysis could predict delayed neurological deterioration/vasospasm related
complications, results that were corroborated by later external studies. In 2012 and 2014,
results have been published showing how to diagnose mitochondrial dysfunction on the basis of
the biochemical patterns of cerebral microdialysis experimentally as well as clinically.
Briefly, a cerebrochemical pattern with elevated lactate/pyruvate-ratio with simultaneous
normal or supranormal levels of pyruvate and glucose seen together with normal tissue oxygen
monitoring indicates mitochondrial dysfunction. Mitochondrial dysfunction most likely plays a
key role in the worsening of outcome in a variety cerebral pathological conditions, and might
be amenable to pharmacologic intervention.
The microdialysis technique is based on a thin probe with a semipermeable membrane being
inserted in affected brain tissue, collecting interstitial fluid from a small area
surrounding the probe. The fluid is analysed for metabolites, proteins or pharmacological
substances and has earlier been shown to be of great value in guiding NICU care and
prognostication. One problem with the technique is, however, that the measurements are
regional and limited to the very small sampling volume of the probe. Another obstacle is that
the technique is intracranial invasive.
Aims
In the current prospective cohort study, the investigators will describe the incidence of
mitochondrial dysfunction in a patients admitted to the NICU with severe subarachnoid
haemorrhage (SAH). As patients suffering from SAH often have a non-ischemic cerebral
metabolic affliction, a global cerebral measurement would presumably be as useful or more so
than a focal measurement from only a very small regional brain volume. The investigators wish
to evaluate a new method of monitoring, namely microdialysis of cerebral venous blood
drainage. The cerebral venous drainage passes almost without exception through the jugular
bulbs, left or right sided majority depending on dominance. The investigators will compare
results of regional cerebral and venous measurements in order to confirm the hypothesis that
metabolic disturbances of the brain are mirrored in the venous blood drainage in the jugular
bulb. A pilot study of patients undergoing open heart surgery has confirmed significant
differences in lactate and pyruvate in arterial systemic vs jugular venous blood. Yet
unpublished data from this groups porcine experimental model supports the possibility of
global metabolic venous monitoring.
Perspectives
If jugular bulb microdialysis can be confirmed to give a reliable global estimate of cerebral
metabolic state it might be possible to a implement a new, less invasive diagnostic tool for
NICU-patients. Surrogate measures in use today as e.g. NIRS (Near Infrared Spectroscopy)
correlate poorly to cerebral metabolic status.
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