Brain Tumor Clinical Trial
Official title:
Comparison of Two Doses of Mannitol on Brain Relaxation During Supratentorial Craniotomy
Neuroanesthesia for supratentorial surgery involves a thorough understanding of the
physiopathology of intracranial pressure, cerebral homeostasis and regulation of cerebral
perfusion pressure as well as the effects of anesthesia and surgery on these elements.
The main objective of anesthesia during neurosurgery is to preserve the integrity of the
brain by maintaining cerebral homeostasis, and assuring cerebral protection using
normovolemia, normotension, normoglycemia, moderate hyperoxia and hypocapnia and
hyperosmolality with the administration of mannitol.
During surgery, the use of surgical retractors must be limited to avoid possible ischemia of
the brain tissue. Surgical retractors can be replaced by chemical retractors. The concept of
chemical retraction involves a reduction of cerebral blood flow, maintaining cerebral
perfusion pressure, moderate hyperventilation, drainage of cerebrospinal fluid and
osmotherapy.
Mannitol, an osmotic agent, has been widely used to reduce the volume of the brain, the
intracranial pressure and to facilitate the surgical approach in reducing the risk of
cortical lesions during the opening of the skull.
Mannitol 20% is usually given intravenously in bolus doses of 0.5-1g/kg over 30 minutes.
However, over the last few years, the concept of a dose-response relationship has emerged.
Some recent studies tend to demonstrate that higher doses of mannitol could reduce
intracranial pressure significantly without any important side effects.
The main objective of the present study is to compare two doses of mannitol (0.7 and 1.4
g/kg) on brain relaxation during supratentorial craniotomies.
80 patients will be divided in two equal groups (Group 1: to receive 20% mannitol 0.7 g/kg
or Group 2: 1.4 g/kg).
The anesthetic technique and monitoring will be standardized. The administration of mannitol
will start following the induction of general anesthesia. The infusion will be given
intravenously over 30 minutes.
Brain relaxation will be assessed by a senior surgeon at the opening of the dura mater on a
scale from 1 to 4 (1= perfectly relaxed, 2= satisfactorily relaxed, 3= firm brain, 4=bulging
brain)
If needed, in case of significant cerebral edema, a rescue dose of 20% mannitol 0.25 g/kg
will be administered.
Hemodynamic variables (MAP, heart rate), temperature, urine output, perioperative fluid
balance, blood loss and laboratory values (blood gases, electrolytes, osmolality,
hematocrit, glycemia, lactates) will be collected immediately prior to the infusion of
mannitol and at 30, 60, 180 minutes following the administration of mannitol.
The type of cerebral lesion, its location and size (in 3 dimensions) will be noted. The
presence of a median-line shift will also be assessed.
;
Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Outcomes Assessor), Primary Purpose: Treatment
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