Cerebral haemodynamic changes during propofol–remifentanil or sevoflurane anaesthesia: transcranial Doppler study under bispectral index monitoring
Alfredo Conti,Domenico Gerardo Iacopino,Vincenzo Fodale,S. Micalizzi,Olivia Penna,Letterio B. Santamaria +5 more
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TLDR
Propofol-remifentanil anaesthesia induced a dose-dependent low-flow state with preserved cerebral autoregulation, whereas sevoflurane at high doses provided a certain degree of luxury perfusion.Abstract:
Background Sevoflurane or propofol–remifentanil-based anaesthetic regimens represent modern techniques for neurosurgical anaesthesia. Nevertheless, there are potential differences related to their activity on the cerebrovascular system. The magnitude of such difference is not completely known. Methods In total 40 patients, treated for spinal or maxillo-facial disorders, were randomly allocated to either i.v. propofol–remifentanil or inhalational sevoflurane anaesthesia. Transcranial Doppler was used to assess changes in cerebral blood flow velocity, carbon dioxide reactivity, cerebral autoregulation and the bispectral index to assess the depth of anaesthesia. Results Time-averaged mean flow velocity (MFV) was significantly reduced after induction of anaesthesia in both sevoflurane and propofol–remifentanil groups ( P P P 2 concentrations impaired cerebral autoregulation in the sevoflurane group but not in patients anaesthetized with propofol–remifentanil. Conclusions Propofol–remifentanil anaesthesia induced a dose-dependent low-flow state with preserved cerebral autoregulation, whereas sevoflurane at high doses provided a certain degree of luxury perfusion.read more
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Effects of sevoflurane, propofol, and adjunct nitrous oxide on regional cerebral blood flow, oxygen consumption, and blood volume in humans
Kaike K. Kaisti,Jaakko Långsjö,Sargo Aalto,Vesa Oikonen,Hannu Sipilä,Mika Teräs,Susanna Hinkka,Liisa Metsähonkala,Harry Scheinin +8 more
TL;DR: The effects of sevoflurane and propofol as sole anesthetics and in combination with N2O on regional cerebral blood flow, metabolic rate of oxygen (rCMRO2), and blood volume (rCBV) in the living human brain using positron emission tomography are quantified.
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TL;DR: In common with other volatile anesthetic agents, sevoflurane has an intrinsic dose-dependent cerebral vasodilatory effect, however, this effect is less than that of isofl Lurane.