Acute Brain Injuries Clinical Trial
Official title:
Feasibility of Dexmedetomidine-based Sedation in Neurocritical Care Patients : a Pilot Study
This will be an open, prospective pilot study with pharmacological analysis. This study is
designed to assess the efficacity and safety of dexmedetomidine-based sedation in two
subgroups of neurocritically ill patients requiring mechanical ventilation for more than 48
hours. Those with or at risk for intracranial hypertension requiring deep sedation and those
requiring a light to moderate sedation for early neurological evaluation.
The main objective is to assess the feasability of dexmedetomidine infusion in terms of
efficacy and safety (especially cardiovascular tolerance) in brain-injured patients admitted
to intensive care unit and requiring sedation and mechanical ventilation for a predictable
duration greater than or equal to 48 hours. Secondary objectives include the study of
hemodynamic parameters evolution, dose-response relationship, blood (+/- cerebrospinal
fluid) drug concentration, opioates and co-hypnotic consumption.
A written informed consent will be obtained from patients next-of-kin, before study
enrollment according to inclusion and exclusion criterias. All consecutive brain-injured
patients (traumatic brain injury, subarachnoid or intracerebral hemorrhage, postoperative
neurosurgical procedure) admitted to our neurocritical care unit, older than 18 years and
requiring sedation and analgesia for mechanical ventilation longer than 48 hours, will be
eligible for the study. Depending on the absence or presence of lesion which may increase
intracranial pressure, patients will be included in the "light to moderate" sedation
subgroup (MLS) or in the "deep" sedation subgroup (DS).
In the MLS subgroup (RASS 0/-3), sedation and analgesia will be drived by propofol and
opiates. Once the goals of sedation achieved with usual hypnotic, dexmedetomidine will be
initiated at a dose of 0.5 μg/kg/h, and then gradually increased or decreased by increments
of 0.1 μ g / kg / h all hours to a maximum dose of 1.4 μg/kg/h, depending on the target
sedation achievement. Propofol will be discontinued at study drug initiation.
Dexmedetomidine infusion will bemaintained at least during 48 hours, evaluation of the
efficacy and safety will be continuous during this period.
After these first 48 hours, in the absence of neurological worsening requiring a deep
sedation and if sedation's levels will are achieved with dexmedetomidine alone (ie without
requirement of propofol continuous administration) , it will be maintained untill withdrawal
of mechanical ventilation. Otherwise, study drug will discontinued and propofol will be
restarted.
In the DS subgroup, "deep" sedation (RASS -4/-5) will be achieved by propofol infusion. If
sedation level are not achieved with the maximum recommended propofol dose (5mg/kg/h),
midazolam will be started to reach target sedation level with a maximum dose of 0.15mg/kg/h.
Once the goals of sedation will be achieved a dexmedetomidine infusion will be initiated at
a dose of 0.5 μg/kg/h and then gradually titrated by increase of 0.1 μg/kg/h every hour up
to the maximum patient-tolerated dose (maximum dose of 1.4 μg/kg/h). Conventional hypnotic
doses will be adjusted according to the sedation target. In parallel to dexmedetomidine
titration, midazolam first and then propofol will be decreased. The study drug will be
maintained at the maximum patient-tolerated dose for a total of 48 hours during which the
efficacy and safety will be assessed continuously. After this period, dexmedetomidine will
be discontinued. According to the patient's neurological evolution, either sedation
objectives will remain identical (RASS -4/-5), or sedation will be decreased. Conventional
hypnotic will be used again to achieve these objectives.
The expected result of this study is to confirm that the administration of dexmedetomidine
is effective and safe for "light to moderate" and "deep" sedation of brain-injured patients
admitted to intensive care unit. In addition, this feasibility study could provide
legitimacy if the results are conclusive, to conduct a prospective multicenter randomized
controlled trial on the potential benefits of dexmedetomidine in neurocritical ill patients.
;
Allocation: Non-Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Treatment
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