BACKGROUND: Impaired cerebral autoregulation is frequent after severe traumatic head injury. This could result in intracranial pressure fluctuating passively with the mean arterial pressure. OBJECTIVE: This study examines the influence of autoregulation on the amplitude and direction of changes in intracranial pressure in patients with severe head injuries during the management of cerebral perfusion pressure. DESIGN: Prospective study. SETTING: Neurosurgical intensive care unit PATIENTS: A total of 42 patients with severe head injuries. INTERVENTIONS: Continuous recording of cerebral blood flow velocity, intracranial pressure, and mean arterial pressure during the start or change of continuous norepinephrine infusion. MEASUREMENTS AND MAIN RESULTS: Cerebrovascular resistance was calculated from the cerebral perfusion pressure and middle cerebral artery blood flow velocity. The strength of autoregulation index was calculated as the ratio of the percentage of change in cerebrovascular resistance by the percentage of change in cerebral perfusion pressure before and after 121 changes in mean arterial pressure at constant ventilation between day 1 and day 18 after trauma. The strength of autoregulation index varied widely, indicating either preserved or severely perturbed autoregulation during hypotensive or hypertensive challenge in patients with or without intracranial hypertension at the basal state (strength of autoregulation index, 0.51 +/- 0.32 to 0.71 +/- 0.25). The change in intracranial pressure varied linearly with the strength of autoregulation index. There was a clinically significant change in intracranial pressure (> or =5 mm Hg) in the same direction as the change in mean arterial pressure in five tracings of three patients. This was caused by the mean arterial pressure dropping below the identified lower limit of autoregulation in three tracings for two patients. It seemed to be caused by a loss of cerebral autoregulation in the remaining two tracings for one patient. CONCLUSION: Cerebral perfusion pressure-oriented therapy can be a safe way to reduce intracranial pressure, whatever the status of autoregulation, in almost all patients with severe head injuries.
BACKGROUND: Impaired cerebral autoregulation is frequent after severe traumatic head injury. This could result in intracranial pressure fluctuating passively with the mean arterial pressure. OBJECTIVE: This study examines the influence of autoregulation on the amplitude and direction of changes in intracranial pressure in patients with severe head injuries during the management of cerebral perfusion pressure. DESIGN: Prospective study. SETTING: Neurosurgical intensive care unit PATIENTS: A total of 42 patients with severe head injuries. INTERVENTIONS: Continuous recording of cerebral blood flow velocity, intracranial pressure, and mean arterial pressure during the start or change of continuous norepinephrine infusion. MEASUREMENTS AND MAIN RESULTS: Cerebrovascular resistance was calculated from the cerebral perfusion pressure and middle cerebral artery blood flow velocity. The strength of autoregulation index was calculated as the ratio of the percentage of change in cerebrovascular resistance by the percentage of change in cerebral perfusion pressure before and after 121 changes in mean arterial pressure at constant ventilation between day 1 and day 18 after trauma. The strength of autoregulation index varied widely, indicating either preserved or severely perturbed autoregulation during hypotensive or hypertensive challenge in patients with or without intracranial hypertension at the basal state (strength of autoregulation index, 0.51 +/- 0.32 to 0.71 +/- 0.25). The change in intracranial pressure varied linearly with the strength of autoregulation index. There was a clinically significant change in intracranial pressure (> or =5 mm Hg) in the same direction as the change in mean arterial pressure in five tracings of three patients. This was caused by the mean arterial pressure dropping below the identified lower limit of autoregulation in three tracings for two patients. It seemed to be caused by a loss of cerebral autoregulation in the remaining two tracings for one patient. CONCLUSION: Cerebral perfusion pressure-oriented therapy can be a safe way to reduce intracranial pressure, whatever the status of autoregulation, in almost all patients with severe head injuries.
Authors: Christof Thees; Kai-Michael Scheufler; Joachim Nadstawek; Josef Zentner; Ariane Lehnert; Andreas Hoeft Journal: Intensive Care Med Date: 2003-01-23 Impact factor: 17.440
Authors: José Roberto Tude Melo; Federico Di Rocco; Stéphane Blanot; Harry Cuttaree; Christian Sainte-Rose; Jamary Oliveira-Filho; Michel Zerah; Philippe G Meyer Journal: Childs Nerv Syst Date: 2011-01-05 Impact factor: 1.475
Authors: B Depreitere; G Citerio; M Smith; P David Adelson; M J Aries; T P Bleck; P Bouzat; R Chesnut; V De Sloovere; M Diringer; J Dureanteau; A Ercole; G Hawryluk; C Hawthorne; R Helbok; S P Klein; J O Neumann; C Robba; L Steiner; N Stocchetti; F S Taccone; A Valadka; S Wolf; F A Zeiler; G Meyfroidt Journal: Neurocrit Care Date: 2021-01-25 Impact factor: 3.210