Wilhelm Sorteberg scite author profile

We studied the response of cerebral blood flow to acute step decreases in arterial blood pressure noninvasively and nonpharmacologically in 10 normal volunteers during normocapnia, hypocapnia, and hypercapnia. The step (approximately 20 mm Hg) was induced by rapidly deflating thigh blood pressure cuffs following a 2-minute inflation above systolic blood pressure. Instantaneous arterial blood pressure was measured by a new servo-cuff method, and cerebral blood flow changes were assessed by transcranial Doppler recording of middle cerebral artery blood flow velocity. In hypocapnia, full restoration of blood flow to the pretest level was seen as early as 4.1 seconds after the step decrease in blood pressure, while the response was slower in normocapnia and hypercapnia. The time course of cerebrovascular resistance was calculated from blood pressure and blood flow recordings, and rate of regulation was determined as the normalized change in cerebrovascular resistance per second during 2.5 seconds just after the step decrease in blood pressure. The reference for normalization was the calculated change in cerebrovascular resistance that would have nullified the effects of the step decrease in arterial blood pressure on cerebral blood flow. The rate of regulation was 0.38, 0.20, and 0.11/sec in hypocapnia, normocapnia, and hypercapnia, respectively. There was a highly significant inverse relation between rate of regulation and PacOj (p<0.001), indicating that the response rate of cerebral autoregulation in awake normal humans is profoundly dependent on vascular tone. (Stroke 1989;20:45-52) C erebral autoregulation is a homeostatic mechanism that minimizes deviations in cerebral blood flow (CBF) when cerebral perfusion pressure (CPP) changes. Cerebral autoregulation acts through vasomotor effectors that control cerebrovascular resistance (CVR). Previous studies have convincingly documented the ability of this physiologic system to maintain relatively constant CBF when CPP is within the range 50-170 mm Hg. 1 -6 Because this is a very fast-acting homeostatic mechanism, 7 the method for measuring autoregulatory responses should ideally have good time resolution. Our knowledge about the dynamic response of cerebral autoregulation in humans is limited because most indicator methods permit sampling of regional CBF at intervals of only minutes. Animal experiments 7 -10 indicate that the main autoregulatory response is produced within seconds. Measurement of dynamic response times and response rates to characterize the effectiveness of autoregulation is of interest not only from a physi-

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Diagnostic Intracranial Pressure Monitoring and Surgical Management in Idiopathic Normal Pressure Hydrocephalus

Eide

Sorteberg

2010

236

258

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Cerebral vasospasm diagnosis by means of angiography and blood velocity measurements

et al. 1989

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We investigated 76 patients with known subarachnoid haemorrhage (SAH) in order to compare the results of angiography and non-invasive Doppler recordings of cerebral artery blood velocity in the diagnosis of cerebral vasospasm. One radiologist and one neurovascular surgeon assessed angiographic spasm visually on a four-level scale. The radiologist's ratings were the term of reference for the study. When there was angiographic spasm of the middle cerebral artery (MCA), the MCA blood velocity was higher and the blood velocity in the distal extracranical internal carotid artery (ICA) was lower than when MCA spasm was scored as absent. Analysis by Kappa statistics, a measure for the agreement between two independent judges with correction for random coincidence, revealed moderate agreement between angiographic spasm and the absolute MCA blood velocity (Kappa = 0.47). However, there was substantial agreement (Kappa = 0.64) between angiographic spasm and the index calculated from dividing the blood velocity in the MCA (VMCA) by the blood velocity in the ipsilateral ICA (VICA). The results indicate that this VMCA/VICA index gives more appropriate information on MCA spasm. Congenitally asymmetric circles of Willis with one wide dominant ACA showed normal blood velocities. In asymmetry induced by vasospasm, the diameter of the major ACA was normal or even reduced, and the blood velocity was significantly elevated. Hence, the agreement between blood velocity recordings and angiographic findings was substantial (Kappa = 0.64) when considering together the findings from both sides of the anterior circle of Willis.(ABSTRACT TRUNCATED AT 250 WORDS)

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Blood blister–like aneurysms of the internal carotid artery trunk causing subarachnoid hemorrhage: treatment and outcome

Meling¹,

Sorteberg²,

Bakke

et al. 2008

JNS

203

216

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Internal carotid BBAs are rare, small, and difficult to treat endovascularly, with only 2 of 14 patients successfully treated with coil placement. The BBAs rupture easily during surgery (ruptured in 6 of 11 surgical cases). Intraoperative aneurysm rupture invariably led to ICA trap ligation. Sacrifice of the ICA within 48 hours of an SAH led to very poor outcome, even in patients with adequate collateral capacity on preoperative angiograms, probably because of vasospasm-induced compromise of the cerebral collaterals.

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