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I.p. Dose (i.p + dose)

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Medical Sciences100%

Selected Abstracts

Oxidative stress and hippocampus in a low-grade hepatic encephalopathy model: protective effects of curcumin

HEPATOLOGY RESEARCH, Issue 11 2008
Diego Martín Roselló
Aim:, The present study was performed on prehepatic portal hypertensive rats, a model of low-grade hepatic encephalopathy, designed to evaluate whether oxidative stress was a possible pathway implicated in hippocampal damage and if so, the effect of an anti-oxidant to prevent it. Methods:, Prehepatic portal hypertension was induced by a regulated portal vein stricture. Oxidative stress was investigated by assessing related biochemical parameters in rat hippocampus. The effect of the anti-oxidant curcumin, administered in a single i.p. dose of 100 mg/kg on the seventh, ninth and eleventh days after surgery, was evaluated. Results:, Oxidative stress in the rat hippocampal area was documented. Curcumin significantly decreased tissue malondialdehyde levels and significantly increased glutathione peroxidase, catalase and superoxide dismutase activities in the hippocampal tissue of portal hypertensive rats. Conclusion:, Oxidative stress was found to be implicated in the hippocampal damage and curcumin protected against this oxidative stress in low-grade hepatic encephalopathic rats. These protective effects may be attributed to its anti-oxidant properties. [source]

A comparative study on the acute and long-term effects of MDMA and 3,4-dihydroxymethamphetamine (HHMA) on brain monoamine levels after i.p. or striatal administration in mice

BRITISH JOURNAL OF PHARMACOLOGY, Issue 2 2005
Isabel Escobedo
1This study investigated whether the immediate and long-term effects of 3,4-methylenedioxymethamphetamine (MDMA) on monoamines in mouse brain are due to the parent compound and the possible contribution of a major reactive metabolite, 3,4-dihydroxymethamphetamine (HHMA), to these changes. The acute effect of each compound on rectal temperature was also determined. 2MDMA given i.p. (30 mg kg,1, three times at 3-h intervals), but not into the striatum (1, 10 and 100 ,g, three times at 3-h intervals), produced a reduction in striatal dopamine content and modest 5-HT reduction 1 h after the last dose. MDMA does not therefore appear to be responsible for the acute monoamine release that follows its peripheral injection. 3HHMA does not contribute to the acute MDMA-induced dopamine depletion as the acute central effects of MDMA and HHMA differed following i.p. injection. Both compounds induced hyperthermia, confirming that the acute dopamine depletion is not responsible for the temperature changes. 4Peripheral administration of MDMA produced dopamine depletion 7 days later. Intrastriatal MDMA administration only produced a long-term loss of dopamine at much higher concentrations than those reached after the i.p. dose and therefore bears little relevance to the neurotoxicity. This indicates that the long-term effect is not attributable to the parent compound. HHMA also appeared not to be responsible as i.p. administration failed to alter the striatal dopamine concentration 7 days later. 5HHMA was detected in plasma, but not in brain, following MDMA (i.p.), but it can cross the blood,brain barrier as it was detected in the brain following its peripheral injection. 6The fact that the acute changes induced by i.p. or intrastriatal HHMA administration differed indicates that HHMA is metabolised to other compounds which are responsible for changes observed after i.p. administration. British Journal of Pharmacology (2005) 144, 231,241. doi:10.1038/sj.bjp.0706071 [source]

Characterization of the anticonvulsant profile and enantioselective pharmacokinetics of the chiral valproylamide propylisopropyl acetamide in rodents

BRITISH JOURNAL OF PHARMACOLOGY, Issue 4 2003
Nina Isoherranen
Propylisopropyl acetamide (PID) is a new chiral amide derivative of valproic acid. The purpose of this study was to evaluate the anticonvulsant activity of PID in rodent models of partial, secondarily generalized and sound-induced generalized seizures which focus on different methods of seizure induction, both acute stimuli, and following short-term plastic changes as a result of kindling, and to assess enantioselectivity and enantiomer,enantiomer interactions in the pharmacokinetics and pharmacodynamics of racemic PID and its pure enantiomers in rodents. Anticonvulsant activity of (S)-PID, (R)-PID and racemic PID was evaluated in the 6 Hz psychomotor seizure model in mice, in the hippocampal kindled rat, and in the Frings audiogenic seizure susceptible mouse. The pharmacokinetics of (S)-PID and (R)-PID was studied in mice and rats. In mice (S)-PID, (R)-PID and racemic PID were effective in preventing the 6 Hz seizures with (R)-PID being significantly (P<0.05) more potent (ED50 values 11 mg kg,1, 46 mg kg,1 and 57 mg kg,1 at stimulation intensities of 22, 32 and 44 mA, respectively) than (S)-PID (ED50 values 20 mg kg,1, 73 mg kg,1 and 81 mg kg,1 at stimulation intensities of 22, 32 and 44 mA, respectively). (S)-PID, (R)-PID and racemic PID also blocked generalized seizures in the Frings mice (ED50 values 16 mg kg,1, 20 mg kg,1 and 19 mg kg,1 respectively). In the hippocampal kindled rat a dose of 40 mg kg,1 of (R)- and (S)-PID prevented the secondarily generalized seizure, whereas racemic PID also blocked the expression of partial seizures following an i.p. dose of 40 mg kg,1. Racemic PID also significantly increased the seizure threshold in this model. Mechanistic studies showed that PID did not affect voltage-sensitive sodium channels or kainate-, GABA- or NMDA- evoked currents. The pharmacokinetics of PID was enantioselective following i.p. administration of individual enantiomers to mice, with (R)-PID having lower clearance and longer half-life than (S)-PID. In rats and mice, no enantioselectivity in the pharmacokinetics of PID was observed following administration of the racemate, which may be due to enantiomer,enantiomer interaction. This study demonstrated that PID has both enantioselective pharmacokinetics and pharmacodynamics. The better anticonvulsant potency of (R)-PID in comparison to (S)-PID may be due to its more favorable pharmacokinetic profile. The enhanced efficacy of the racemate over the individual enantiomers in the kindled rat may be explained by a pharmacokinetic enantiomer,enantiomer interaction in rats. This study also showed the importance of studying the pharmacokinetics and pharmacodynamics of chiral drugs following administration of the individual enantiomers as well as the racemic mixture. British Journal of Pharmacology (2003) 138, 602,613. doi:10.1038/sj.bjp.0705076 [source]

The pharmacokinetics of ethosuximide enantiomers in the rat

BIOPHARMACEUTICS AND DRUG DISPOSITION, Issue 2 2001
J. Mifsud
Abstract A chiral gas chromatographic assay previously developed for quantitative analysis of ethosuximide and its major metabolites in rat urine has been adapted for the analysis of the drug in plasma. Ethosuximide, both as a racemic mixture and as the individual enantiomers, was administered to conscious rats by the intravenous (i.v.) and intraperitoneal (i.p.) routes. Pharmacokinetic parameters were estimated using standard non-compartmental methods. Comparison of the pharmacokinetic parameters of (S)-ethosuximide and (R)-ethosuximide showed that total body clearance of (R)-ethosuximide was significantly larger than that of (S)-ethosuximide and that elimination half-life was significantly shorter following administration of both 40 mg i.v. and i.p. doses, indicating that there is stereoselective elimination of ethosuximide. However, no significant differences were found between apparent volumes of distribution. In addition, no significant differences were found for either enantiomer between the estimates of the pharmacokinetic parameters obtained following administration as the individual enantiomer and as a constituent of the racemic mixture. This indicates that, at the doses studied, the preferential faster elimination of (R)-ethosuximide is not dependent upon the presence of the (S)-enantiomer. Also, for each enantiomer, the lack of any significant difference between estimates of clearance when administered as part of a racemic mixture and when administered separately indicates that neither enantiomer affects the clearance of the other. Copyright © 2001 John Wiley & Sons, Ltd. [source]