We found that CVRs to tactile stimulation differ in their magnitude at three different sites within the airways, and localized anesthesia with lidocaine can abolish these responses in humans. The inhibition of lidocaine could be mainly due to direct blockade of the mechanoreceptors of the airways and partly to its systemic effect.
General anesthetics are known to transiently increase the expression of messenger ribonucleic acids (mRNAs) of immediate-early genes in the brain. We investigated whether the expression of two immediate-early genes in vital organs were modulated by various anesthetics. Inhaled isoflurane (n = 20), intraperitoneal pentobarbital (n = 20), and IV propofol (n = 20) were administered to male Sprague-Dawley rats, and five from each group were decapitated at 5, 30, 60, or 120 min after the induction of anesthesia. Control, nonanesthetized rats (n = 5) were handled gently and then decapitated. Reverse transcriptase-polymerase chain reactions were performed on total RNA from samples of the brain, heart, liver, and kidney to detect the expressions of c-fos and c-jun mRNAs. As internal control, cyclophilin mRNA was amplified simultaneously. The products were separated by electrophoresis, and the optical density of the bands was quantified. The expression of c-fos mRNA was transiently increased in the brain, and more strikingly and for longer times, in the kidney with all three anesthetics; the expression of c-fos mRNA was decreased in the heart with isoflurane and pentobarbital and increased in the liver with isoflurane and propofol. The expression of c-jun mRNA was increased in the heart, liver, and kidney with isoflurane, increased in the heart and kidney with pentobarbital, increased in the heart, liver, and kidney with propofol, and decreased in the brain with pentobarbital. Our results suggest that the appropriate anesthetics to be used to anesthetize animals differ in accord with the target organs in which the expressions of immediate-early genes in response to stimuli were studied.
Incision of rat hairy skin changes pain responses, similar to pain in humans. Preincisional subcutaneous bupivacaine selectively suppresses and shortens allodynia for times far outlasting its local anesthesia, an effect largely from systemic actions.
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