Objective: Traumatic brain injury is frequently accompanied by a systemic inflammatory response. Systemic inflammation was associated with cerebral hyperperfusion uncoupled to global oxygen metabolism in ovine head trauma. The present study investigated the cerebral effects of cerebral perfusion pressure (CPP) management performed by either fluid resuscitation or vasopressor treatment of low CPP induced by systemic inflammation.
Design: Nonrandomized experimental study.
Setting: University hospital laboratory.
Subjects: A total of 12 adult sheep.
Interventions, measurements, and main results: Sheep were anesthetized and ventilated throughout the experimental period (13 hrs). After baseline measurements (hour 0), blunt head trauma was induced by a nonpenetrating stunner. After postinjury measurements (hour 2), all animals received continuous endotoxin infusion. At hour 10, one group (n = 6) was infused with hydroxyethyl starch until CPP reached 60-70 mm Hg. A second group (n = 6) received norepinephrine for CPP elevation. In the norepinephrine group, blood was isovolemically exchanged by hydroxyethyl starch to achieve comparable hematocrit levels. Head trauma increased intracranial pressure and decreased brain tissue oxygen tension. Endotoxemia induced a hyperdynamic cardiovascular response with increased internal carotid blood flow in the presence of systemic hypotension and decreased CPP. Hydroxyethyl starch infusion further increased internal carotid blood flow from (mean +/- sd) 247 +/- 26 (hour 10) to 342 +/- 42 mL/min (hour 13) and intracranial pressure from 20 +/- 4 (hour 10) to a maximum of 25 +/- 3 mm Hg (hour 12) but did not significantly affect brain tissue oxygen tension, sinus venous oxygen saturation and oxygen extraction fraction. Norepinephrine increased internal carotid blood flow from 268 +/- 19 to 342 +/- 58 mL/min and intracranial pressure from 22 +/- 11 to 24 +/- 11 mm Hg (hour 10 vs. hour 13) but significantly increased sinus venous oxygen saturation from 49 +/- 4 (hour 10) to a maximum of 59 +/- 6 mm Hg (hour 12) and decreased oxygen extraction fraction. The increase in brain tissue oxygen tension during norepinephrine treatment was not significant.
Conclusion: We conclude that despite identical carotid blood flows, only CPP management with norepinephrine reduced the cerebral oxygen deficit in this model.