Optimal reverse trendelenburg position in patients undergoing craniotomy for cerebral tumors.

OBJECT: To the authors' knowledge, repeated measurements of intracranial pressure (ICP), cerebral perfusion pressure (CPP), and the degree of dural tension during different positions on the operating table (reverse Trendelenburg position [rTp]) have not been studied in patients undergoing craniotomy. METHODS: In the present study 53 patients with supratentorial cerebral tumors who underwent craniotomy in the supine position were included. Subdural ICP, mean arterial blood pressure (MABP), CPP, and jugular bulb (JB) pressure were recorded, and the degree of dural tension was analyzed while patients were in the neutral operating position and at 5, 10, and 15 degrees rTp. The optimal operating position was defined as the one at which subdural ICP was as low as possible, and CPP was greater than or equal to 60 mm Hg or as high as possible. Subdural ICP, MABP, and JB pressure decreased significantly after each 5 degrres change in rTp compared with the preceding position. Dural tension decreased significantly up to 10 degrees rTp, but was unchanged at 15 degrees rTp. At 5 degrees rTp CPP remained unchanged, but it decreased significantly during 10 and 15 degrees rTp. The optimal position in the majority of patients was determined to be 15 degrees rTp. CONCLUSIONS: Before opening the dura mater for craniotomy, repeated measurements of ICP and CPP, in the neutral position and at 5, 10, and 15 degrees rTp, provide valuable information regarding the optimal level of ICP and CPP.

Craniotomy for supratentorial brain tumors: risk factors for brain swelling after opening the dura mater.

OBJECT: Cerebral swelling often occurs during craniotomy for cerebral tumors. The primary aim in this study was to determine risk factors (intracranial pressure [ICP], patient characteristics, histopathological features, neuroimaging characteristics, anesthetic regimen, and perioperative physiological data) predictive of brain swelling through the dural opening. As a secondary aim the authors attempted to define subdural ICP thresholds associated with brain swelling. METHODS: The study population consisted of 692 patients (mean age 50+/-15 years) scheduled for elective craniotomy for supratentorial brain tumors. Brain swelling through the dural opening was estimated according to a four-point scale. The patients were dichotomized as those without cerebral swelling (that is, brain below the dura mater [59 patients] or brain at the level of the dura mater [386 patients]) and those with cerebral swelling (that is, moderate brain swelling [205 patients] or pronounced brain swelling [42 patients]). Logistic regression analysis was used to identify subdural ICP (odds ratio [OR] 1.9, 95% confidence interval [CI] 1.72-2.1, p < 0.0001), midline shift (OR 1.06, 95% CI 1.02-1.11, p = 0.008), a diagnosis of glioblastoma multiforme (OR 2.1, 95% CI 1.01-4.3, p = 0.047), and metastasis (OR 2.9, 95% CI 1.3-6.9, p = 0.01) as independent risk factors of intraoperative brain swelling. Thresholds for ICP associated with brain swelling were defined as follows: at an ICP less than 5 mm Hg, brain swelling rarely occurred (5% probability); at an ICP greater than 13 mm Hg, brain swelling occurred with 95% probability; and at an ICP greater than 26 mm Hg, severe brain swelling occurred with 95% probability. CONCLUSIONS: Subdural ICP is the strongest predictor of intraoperative brain swelling. It is possible to define thresholds of cerebral swelling and the authors recommend subdural ICP measurement as a tool to initiate preventive measures to reduce ICP before opening the dura mater.

The ICP-lowering effect of 10 degrees reverse Trendelenburg position during craniotomy is stable during a 10-minute period.

Recently we studied the effect of 10 degrees reverse Trendelenburg position on subdural pressure and cerebral perfusion pressure (CPP) during craniotomy. Within 1 minute we found a significant decrease in subdural pressure while CPP was unchanged. A longer time span, however, is necessary to exclude a temporary effect. In the present investigation we studied subdural pressure, CPP, and jugular bulb pressure (JBP) before and during a 10-minute period after change in position. Fifteen patients with supratentorial cerebral tumors were anesthetized with propofol/fentanyl in the supine position. Mean arterial blood pressure and JBP were measured invasively, and subdural pressure was measured after removal of the bone flap. End-tidal CO2, PaCO2, PaO2, heart rate, jugular venous oxygen saturation (SjO2), and arteriovenous oxygen difference (AVDO2) were also measured. Dural tension was estimated by the surgeon. The measurements were performed with the patients in a neutral position and during a 10-minute period after positioning the patient in a 10 degrees reverse Trendelenburg position. After 1 minute in the reverse Trendelenburg position, the mean value of subdural pressure decreased from 10.9 +/- 5.7 to 7.3 +/- 5.2 mm Hg (P<0.05) and remained unchanged for the following 9 minutes. Correspondingly, dural tension was lessened significantly. Jugular pressure and mean arterial blood pressure decreased significantly as well (P<0.05), but the CPP was unaffected. No significant changes in PaCO2, PaO2, end-tidal CO2, heart rate, SjO2, or AVDO2 were disclosed. During craniotomy 10 degrees reverse Trendelenburg position reduces subdural pressure and dural tension within 1 minute without reducing CPP. During the following 9 minutes the levels of subdural pressure and CPP are unchanged.

Intracranial pressure and cerebral hemodynamic in patients with cerebral tumors: a randomized prospective study of patients subjected to craniotomy in propofol-fentanyl, isoflurane-fentanyl, or sevoflurane-fentanyl anesthesia.

BACKGROUND: A critical point during craniotomy is opening of dura, where a high intracranial pressure (ICP) results in swelling of cerebral tissue. Controlled studies concerning ICP, degree of dural tension, and degree of cerebral swelling are therefore warranted. METHODS: In an open-label study, 117 patients with supratentorial cerebral tumors were randomized to propofol-fentanyl (group 1), isoflurane-fentanyl (group 2), or sevoflurane-fentanyl anesthesia (group 3). Normo- to moderate hypocapnia was applied, with a target level of arterial carbon dioxid tension of 30-40 mmHg. Mean arterial blood pressure was stabilized with intravenous ephedrine (2.5-5 mg) if necessary. Subdural ICP, mean arterial blood pressure, cerebral perfusion pressure (CPP), arteriovenous oxygen difference (AVDo2), internal jugular vein oxygen saturation were monitored before and after a 10-min period of hyperventilation, and the carbon dioxide reactivity was calculated. Furthermore, the tension of dura before and during hyperventilation and the degree of cerebral swelling during hyperventilation and after opening of the dura were estimated by the neurosurgeon. RESULTS: No differences were found between groups with regard to demographics, neuroradiologic examination, positioning of the head, and time to ICP measurement. Before and during hyperventilation, ICP was significantly lower and mean arterial blood pressure and CPP significantly higher in group 1 compared with groups 2 and 3 (P < 0.05). The tension of dura before and during hyperventilation was significantly lower in group 1 compared with group2 (P < 0.05), but not significantly different from group 3. In group 1, cerebral swelling after opening of dura was significantly lower compared with groups 2 and 3 (P < 0.05). Furthermore, AVDo was significantly higher and jugular vein oxygen saturation and carbon dioxide reactivity were significantly lower in group 1 compared with groups 2 and 3 (P < 0.05). No significant differences with regard to ICP, CPP, AVDo, carbon dioxide reactivity, and jugular vein oxygen saturation were found between patients anesthetized with isoflurane and sevoflurane. CONCLUSIONS: The study indicates that before as well as during hyperventilation, subdural ICP and AVDo2 are lower and CPP higher in propofol-anesthetized patients compared with patients anesthetized with isoflurane or sevoflurane. These findings were associated with less tendency for cerebral swelling after opening of dura in the propofol group. The carbon dioxide reactivity in patients anesthetized with isoflurane and sevoflurane was significantly higher than in the propofol group. The differences in subdural ICP between the groups are presumed to be caused by differences in the degree of vasoconstriction elicited by the anesthetic agents, but autoregulatory mechanisms caused by differences in CPP cannot be excluded.