Electroencephalography Clinical Trial
Official title:
Auditory Event-Related Potentials, BIS-Index and Entropy for the Discrimination of Different Levels of Sedation in the ICU Patients
Most critically ill patients receive sedative and analgesic drugs to attenuate discomfort
and pain. The excessive use of sedatives and analgesics has undesirable effects for
patients. Whereas undersedation is mostly easy to identify, oversedation with its associated
problems is more difficult to recognize. Stopping sedation daily helps to avoid gross
oversedation, but this is not always possible. Monitoring the depth of sedation is difficult
and is currently based on clinical assessment and the use of clinical scoring systems. These
scoring systems cannot be applied continuously, they are subjective and the level of
consciousness can be altered when sedation is assessed.
Several methods based on the electroencephalogram have been tested to avoid these problems,
but the results have been disappointing so far, so the BIS Monitor an dthe Entropy
monitor.We have previously shown that the time-locked cortical response to standard external
stimuli (long-latency auditory evoked potentials or event-related potentials; ERPs) can
discriminate between clinically relevant light to moderate and deep sedation levels in
healthy volunteers, when sedation is induced with a combination of propofol or midazolam
with remifentanil.
We therefore hypothesized that ERPs may be used to monitor the depth of sedation in ICU
patients as well. As the first step to test this hypothesis, we evaluated the use of ERPs to
assess the level of sedation in patients undergoing elective major surgery and admitted to
the ICU for short term postoperative mechanical ventilation.
Most critically ill patients receive sedative and analgesic drugs to attenuate discomfort
and pain. The excessive use of sedatives and analgesics prolongs time on mechanical
ventilation, the incidence of nosocomial pneumonia, time spent in the intensive care unit,
and increases costs. Strategies to reduce the use of sedatives and analgesics may improve
the outcome. Whereas undersedation is mostly easy to identify, oversedation with its
associated problems is more difficult to recognize, but should be avoided. While stopping
sedation daily helps to avoid gross oversedation, this is not always possible, e.g. due to
unstable condition of the patient. Also, accumulation of sedatives and analgesics may occur
rapidly, especially in patients with renal and/or liver dysfunction. Monitoring the depth of
sedation is difficult and is currently based on clinical assessment and the use of clinical
scoring systems. These scoring systems cannot be applied continuously, they are subjective
and the level of consciousness can be altered when sedation is assessed.
Several methods based on the electroencephalogram have been tested to avoid these problems,
but the results have been disappointing so far. A relatively new method of processed EEG is
Entropy®. Entropy is a non-linear statistic parameter which describes the order of random
repetitive signals. In patients it translates the anesthesia-induced "calmer", more
synchronized EEG into a single parameter. Spectral entropy can reproducibly indicate the
hypnotic effects of propofol, thiopental and different anesthetic gases. The most popular
method of processed EEG for assessment of sedation is the bispectral index (BIS-Index®).
While BIS has been tested and validated for the use in the operation room with different
anesthetics, data on its use in the ICU setting at less deep levels of sedation are
controversial. The multiple concomitant medications and heterogeneity of underlying
pathologies present a further challenge to the use of neuromonitoring in the ICU.
We have previously shown that the time-locked cortical response to standard external stimuli
(long-latency auditory evoked potentials or event-related potentials; ERPs) can discriminate
between clinically relevant light to moderate and deep sedation levels in healthy
volunteers, when sedation is induced with a combination of propofol or midazolam with
remifentanil.
We therefore hypothesized that ERPs may be used to monitor the depth of sedation in ICU
patients as well. As the first step to test this hypothesis, we evaluated the use of ERPs to
assess the level of sedation in patients undergoing elective major surgery and admitted to
the ICU for short term postoperative mechanical ventilation.
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Observational Model: Case-Only, Time Perspective: Prospective
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