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  • Title: Cerebral blood flow affects dose requirements of intracarotid propofol for electrocerebral silence.
    Author: Joshi S, Wang M, Etu JJ, Nishanian EV, Pile-Spellman J.
    Journal: Anesthesiology; 2006 Feb; 104(2):290-8, discussion 5A. PubMed ID: 16436848.
    Abstract:
    BACKGROUND: The authors hypothesized that cerebral blood flow (CBF) changes will affect the dose of intracarotid propofol required to produce electrocerebral silence. METHODS: The authors tested their hypothesis on New Zealand White rabbits. The first group of 9 animals received intracarotid propofol during (1) normoventilation, (2) hyperventilation, and (3) hypoventilation. The second group of 14 animals received intracarotid propofol with or without concurrent intraarterial verapamil, a potent cerebral vasodilator. The third group of 8 animals received bolus injection of propofol during normotension, during severe cerebral hypoperfusion, and after hemodynamic recovery. RESULTS: In the first group, there was a linear correlation between the dose of intracarotid propofol and percent change (%Delta) in CBF from the baseline due to changes in the minute ventilation, Total Dose (y) = 0.17 + 0.012 * %Delta CBF (x), n = 27, r = 0.76. In the second group, the dose of propofol was also a function of CBF change after verapamil, Total Dose (y) = 0.98 + 0.1 * %Delta CBF (x), n = 14, r = 0.75. In the third group, the duration of electrocerebral silence after intracarotid propofol (3 mg) was significantly increased with concurrent cerebral hypoperfusion compared with prehypoperfusion and posthypoperfusion values (141 +/- 38 vs. 19 +/- 24 and 16 +/- 12 s, respectively, P < 0.0001). CONCLUSIONS: The authors conclude that CBF affects the dose requirements of intracarotid propofol required to produce electrocerebral silence. Furthermore, the manipulation of CBF might be a useful tool to enhance the efficacy of intracarotid drugs.
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