Local Cerebral Blood Flow with Fentanyl-Induced Seizures

Maekawa, Taira; Tommasino, Concezione; Shapiro, Harvey M.

doi:10.1038/jcbfm.1984.11

Cited by 12 publications

(7 citation statements)

References 23 publications

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“…The data on 1-CBF presented here and by Maekawa et al (13), and the data on 1-CMRgl presented by Tommasino et al (14) and Young et al (15), are consistent with the electrophysiologic work of Henriksen et al (16) and Nicoll et al (17), which showed that local deposition of P-endorphin or leucine-or methionine-enkephalin produced excitatory activity in the hippocampus or limbic system seizures. These findings for narcotics are similar to those for lidocaine, a compound that produces limbic system epileptogenic activity at fairly low doses compared to those required for cortical propagation (18,19).…”

Section: Correlation Of I-cbf and Eeg At Seizure Doses Of Fentanylsupporting

confidence: 90%

“…They found marked increases in 1-CBF compared to controls in animals with seizures, but the basic pattern, including the predilection for limbic system structures, is similar to our findings. The increases in 1 -CBF noted by Maekawa et al (13) were considerably greater than the changes noted by us. However, the measurements we made were after 20 min of fentanyl infusion, and some of our animals were not actively seizing at the moment the CBF was measured.…”

Section: Correlation Of I-cbf and Eeg At Seizure Doses Of Fentanylcontrasting

confidence: 59%

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Effects of Fentanyl on Local Cerebral Blood Flow in the Rat

Safo

Young

Smith

et al. 1985

Acta Anaesthesiol Scand

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Fentanyl reduces the cortical cerebral blood flow and metabolic rate for oxygen in rats, though seizure activity occurs in some animals at high doses. However, the effects of fentanyl on blood flow and metabolism in subcortical structures have not been clearly delineated. The present study examines the effects of intravenous fentanyl (100 or 400 micrograms . kg-1) on local cerebral blood flow (1-CBF) in paralyzed, mechanically ventilated rats. Rats ventilated with 70% N2O in 30% O2 served as controls. Local CBF was measured using 14C-iodoantipyrine and autoradiography. Blood pressure, PaO2, PaCO2, pH, and temperature were comparable in all groups. The EEG showed slow wave activity in most animals given 100 micrograms . kg-1 fentanyl while seizure activity occurred in all animals given 400 micrograms . kg-1 fentanyl. With 100 micrograms . kg-1 fentanyl, CBF tended to be depressed in all cortical and subcortical areas, except the peri-aqueductal gray; and with 400 micrograms . kg-1 fentanyl, 1-CBF tended to be elevated (compared to 100 micrograms . kg-1 fentanyl) in most areas of the brain. The limbic system structures, however, were most affected by 400 micrograms . kg-1 fentanyl with statistically significant increases (compared to the 100 micrograms . kg-1 group) in 1-CBF of 86% and 67% respectively in the amygdala and septal nucleus. These results confirm that moderately high doses of fentanyl which cause slow wave activity on the EEG also depress 1-CBF in rats; moreover, doses of fentanyl that produce seizure activity produce increases in 1-CBF in most cerebral structures with greatest effects on limbic system 1-CBF.

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Section: Correlation Of I-cbf and Eeg At Seizure Doses Of Fentanylsupporting

confidence: 90%

Section: Correlation Of I-cbf and Eeg At Seizure Doses Of Fentanylcontrasting

confidence: 59%

Effects of Fentanyl on Local Cerebral Blood Flow in the Rat

Safo

Young

Smith

et al. 1985

Acta Anaesthesiol Scand

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“…An important question is to what extent opioid induced CNS over‐excitation may explain this apparent discrepancy. It is well established that administration of (synthetic) opioids may result in epileptiform activity (Urca et al , 1977; Carlsson et al , 1982; Maekawa et al , 1984; Tommasino et al , 1984; Young et al , 1984; Keykhah et al , 1985; Kofke et al , 1993; Cox et al , 1997). Seizure activity may be a confounding factor in the assessment of spectral EEG parameters of opioids.…”

Section: Discussionmentioning

confidence: 99%

Pharmacokinetic‐pharmacodynamic modelling of the EEG effect of alfentanil in rats: assessment of rapid functional adaptation

Cox

Kuipers

Danhof

1998

British J Pharmacology

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1 The purpose of the present investigation was to quantify rapid functional adaptation in the concentration-pharmacological eect relationship of alfentanil in rats using quantitative EEG parameters as a pharmacodynamic endpoint. Three groups of 6 ± 7 rats received in a randomized fashion two consecutive infusions of 2.00, 3.14, or 4.24 mg/kg 71 of alfentanil in 20, 40 or 60 min, respectively. The EEG was continuously recorded and frequent arterial blood samples were collected for determination of the alfentanil concentration by gas chromatography. 2 The pharmacokinetics of alfentanil were most adequately described by a bi-exponential function. The values (mean+s.e., n=20) of clearance, volume of distribution at steady-state and terminal half-life were 45+3 ml.min and 23+1 min, respectively, and independent of the administered dose. 3 Increase in power in the 0.5 ± 4.5 Hz (delta) frequency band of the EEG was used as the measure of the pharmacological response. By pharmacokinetic-pharmacodynamic modeling the individual concentration-EEG eect relationships of alfentanil were derived which were successfully quanti®ed by the sigmoidal E max pharmacodynamic model. When the results of the ®rst of the two consecutive infusions were compared, no systematic dierences in the pharmacodynamic parameters were observed for the dierent infusion rates. The averaged values of the pharmacodynamic parameters of alfentanil were (mean+s.e., n=20): E 0 =56+3 mV, E max =93+8 mV, EC 50 =235+27 ng.ml 71 and Hill factor=1.6+0.1, respectively. For the second of the two consecutive infusions a signi®cantly higher value of the EC 50 of 404+56 ng.ml 71 was observed (P50.05), while the values of the other pharmacodynamic parameters were unchanged. Simulations according to a mechanism-based model indicated that the observed change in concentration eect relationship can be explained by a 40% loss of functional m-opioid receptors. 4 The results of the present study show that upon the administration of a single intravenous dose, acute functional adaptation does not interfere with the assessment of the concentration-EEG eect relationship of alfentanil. Upon repeated administration however functional adaptation may be a complicating factor.

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“…Studies on fentanyl-induced convulsive activity in rats by Carlsson et al [ 19821 indicated that there was a mismatch between cerebral blood flow and cerebral oxygen utilization [Carlsson et al, 19821, in that there was no increase in the blood flow to match the increased oxygen de:mand of the brain during seizure activity. However, Maekawa et al [1984] demonstrated that there was an increase in the blood flow and a decrease in the cerebrovascular resistance in all the structures during high-dose fentanyl-induced seizure activity time and that the flows remained elevated even during postseizure EEG suppression phase. Although there is increased EEG spike activity in the high-dose fentanyl group in the preischemic period, it appears that this effect of high dose fentanyl does not reflect changes in the latency of the SSER before inducing ischemia.…”

Section: Discussionmentioning

confidence: 93%

“…In addition to their use in the clinical setting, opioids have become useful anesthetic agents in a variety of experimental studies [Carlsson et al, 1982;Maekawa et al, 1984;and Tommasino et al, 19841. Although opioids have been implicated in the pathophysiology of cerebral ischemic damage [Furui et al, 19841, the role of fentanyl in potentiating an ischemic/ reperfusion injury remains unclear.…”

Section: Introductionmentioning

confidence: 99%

Effect of fentanyl on the electrophysiological recovery following incomplete global cerebral ischemia

Vasthare

Rubin

Riina

et al. 1991

Drug Development Research

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The effects of two commonly used doses of the opioid fentanyl (50 and 100 Fglkg) on the electrophysiological outcome following global cerebral ischemia were studied in rats. The somatosensory evoked responses (SSER) and EEG activity were utilized to assess neurophysiological outcome. Prior to ischemia, there was no difference in the latency of the cortical peak of the SSER between groups. During the ischemic period, SSER and EEG activity were abolished in both groups. During the reperfusion period, however, the cortical peak of the SSER returned within 30 min in the animals anesthetized with 50 pglkg of fentanyl, whereas in the animals anesthetized with 100 pgikg fentanyl the cortical peak did not return by 60 min. This suggests that the animals anesthetized with a high dose of fentanyl are more susceptible to ischemic damage and that a high dose of fentanyl may exacerbate neurological damage following an ischemic insult to the brain.

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Local Cerebral Blood Flow with Fentanyl-Induced Seizures

Cited by 12 publications

References 23 publications

Effects of Fentanyl on Local Cerebral Blood Flow in the Rat

Effects of Fentanyl on Local Cerebral Blood Flow in the Rat

Pharmacokinetic‐pharmacodynamic modelling of the EEG effect of alfentanil in rats: assessment of rapid functional adaptation

Effect of fentanyl on the electrophysiological recovery following incomplete global cerebral ischemia

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