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  • Title: Preliminary evaluation of the anticonvulsant activity of a valproic acid analog: N-(2-propylpentanoyl) urea.
    Author: Tantisira B, Tantisira MH, Patarapanich C, Sooksawate T, Chunngam T.
    Journal: Res Commun Mol Pathol Pharmacol; 1997 Aug; 97(2):151-64. PubMed ID: 9344228.
    Abstract:
    Anticonvulsant activity, lethality and neurotoxicity of a valproic acid (VPA) analog, N-(2-propylpentanoyl) urea (VPU) in comparison to its parent compound were investigated in mice. Intraperitoneally administered VPU demonstrated a higher protection than VPA in both the maximal electroshock seizure (MES) and the pentylenetetrazole (PTZ) tests exhibiting a median effective dose (ED50) of 66 and 57 mg/kg, respectively. VPU weakly blocked the effect of bicuculline and was ineffective in strychnine test. Furthermore, VPU was also active orally demonstrating an ED50 approximately 6 times higher than its ED50 by the intraperitoneal route. Based on the relatively high median lethal dose (LD50), 1553 mg/kg, VPU possesses a greater margin of safety (LD50/ED50) than did VPA. Unwanted (side) effects in terms of impairment of motor activity and neurotoxicity were assessed by the rotorod test, locomotor activity test as well as potentiation of barbiturate sleeping time. The median neurotoxic dose (TD50) as measured by rotorod test were 625 mg/kg for intraperitoneally given VPU. This finding results in higher protective index (PI = TD50/ED50) of VPU (PI = 9.5) than that of VPA (PI = 1.1) implying that, in therapeutic dose, VPU may produce less neurological side effects than did VPA. Superiority of VPU in terms of higher potency in parallel with minimal neurological deficit as assessed by rotorod test was evident throughout the observation period of 12 hours. Similar results on locomotor activity as well as potentiation of barbiturate sleeping time were obtained with VPU and VPA. Thus, VPU is preferably expected to exert minor degree of CNS depression. Taken altogether, our findings demonstrate greater anticovulsant activity for VPU than for VPA. In addition, this compound is also orally active and seems to offer a greater safety margin in parallel with lower unwanted effects in relation to its parent compound. As indicated by the animal data obtained, VPU is an attractive anticonvulsant candidate for further investigation.
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