Fundamental & clinical pharmacology
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Fundam Clin Pharmacol · Apr 2014
Rimantadine and 2-adamantanamine elicit local anesthesia to cutaneous nociceptive stimuli in a rat model.
The aim of this study was to investigate infiltrative cutaneous anesthesia of 2-adamantanamine and rimantadine. After subcutaneous injections of drugs in rats, the blockade of cutaneous trunci muscle reflex by 2-adamantanamine and rimantadine was evaluated. Lidocaine, a common local anesthetic, was used as control. ⋯ On an equianesthetic basis [25% effective dose (ED25 ), ED50 , and ED75 ], rimantadine and 2-adamantanamine had longer duration of action than lidocaine (P < 0.05). Neither local injection of saline nor intraperitoneal administration of a large dose of drugs elicited cutaneous anesthesia (data not shown). These data demonstrated for the first time that rimantadine had a similar potent and longer duration of skin infiltrative anesthesia than did lidocaine, whereas 2-adamantanamine had a less potency but longer duration of cutaneous anesthesia than did lidocaine.
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Fundam Clin Pharmacol · Apr 2014
Emulsified isoflurane protects rat heart in situ after regional ischemia and reperfusion.
Volatile anesthetic postconditioning reduces myocardial infarct size against ischemia/reperfusion (I/R) injury. We tested the hypothesis that emulsified isoflurane (EIso) administrated after ischemia exerts cardioprotection in a rat model of myocardial I/R. Male SD rats underwent 30-min coronary occlusion followed by 3-h reperfusion except for sham rats. ⋯ Serum levels of cardiac enzyme leakage were reduced in EIso-treated hearts compared with CON (P < 0.01 or P < 0.05). EIso preserved the ultrastructure of mitochondria, protected against mPTP opening, decreased cytochrome c release and preserved ATP production and ΔΨm. In conclusion, EIso is effective in reducing infarct size and in preserving mitochondrial function after ischemia and reperfusion injury.
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Fundam Clin Pharmacol · Apr 2014
The effects of dexketoprofen on duration of analgesia to a thermal stimulus when compared with a systemic control in a rat sciatic nerve block with levobupivacaine.
This study was designed to investigate whether dexketoprofen added to perineuraly or subcutaneously alters the effects of levobupivacaine in a rat model of sciatic nerve blockade. Thirty-six rats received unilateral sciatic nerve blocks along with a subcutaneous injection by a blinded investigator assigned at random. Combinations were as follows: Group 1 (sham) perineural and subcutaneous saline; Group 2, perineural levobupivacaine alone and subcutaneous saline; Group 3, perineural levobupivacaine plus dexketoprofen and subcutaneous saline; Group 4, perineural levobupivacaine and subcutaneous dexketoprofen; Group 5, perineural dexketoprofen and subcutaneous saline; and Group 6, perineural saline and subcutaneous dexketoprofen. ⋯ Significant differences were not determined between the levobupivacaine alone group and dexketoprofen added groups in operative paw. The effects of dexketoprofen are unknown for perineural administration. There is no significant difference between the analgesic effects of peripheral nerve blocks using levobupivacaine alone and plus subcutaneous or perineural dexketoprofen.