Effects of 3-aminopyridine-induced seizures on platelet eicosanoid synthesis.

We investigated the influence of recurrent epileptic seizures on the arachidonic acid (AA) cascade in platelets and brain microvessels, using [(14)C]AA as a tracer substrate and chromatographic determination. The recurrent epileptic seizures of male Wistar rats were induced every second day with 3-aminopyridine (3-AP, 25 mg/kg ip) for two weeks. In the chronic 3-AP model, the earlier epileptic insults resulted in a decreased incidence of limbic seizures and higher survival rate at later administration of 3-AP.

In vivo effects of isatin on rat platelet eicosanoids.

To establish the possible influence of isatin (2,3-dioxo-indole) on the activity of platelets, the effects of isatin on platelet eicosanoid synthesis were studied in rats. Different doses (12.5-50 mg/kg) of isatin were injected intraperitoneally (i.

Prostanoid synthesis in the cerebral blood vessels of asphyxiated piglets.

The aim of this study was to examine the effects of asphyxia-reventilation and hyperoxia on the cerebral blood perfusion and prostanoid production of the brain arteries and microvessels in piglets. After 10 min of asphyxia, animals were ventilated with room air, or with 100% O2. Following 4 hours of recovery, the brains were perfused, cerebral arteries were removed and microvessels were isolated from the cortex.

Platelet arachidonate cascade of migraineurs in the interictal phase.

Morphological and functional alterations of platelets in migraineurs may be linked to the development of migraine. We examined the eicosanoid synthesis of platelets of untreated female migraineurs in a headache-free period and compared it to that of age- and blood group-matched healthy female volunteers. In the platelets of headache-free migraineurs significantly less amounts of anti-aggregatory prostaglandin D2 and prostacyclin, as well as of 12-L-hydroxy-5,8,10-heptadecatrienoic acid (a potent endogenous inducer of endothelial prostacyclin production) were produced, while the synthesis of platelet aggregatory thromboxane did not differ when compared to that of healthy women.

The effects of valproate on the arachidonic acid metabolism of rat brain microvessels and of platelets.

Long-term administration of the antiepileptic drug valproate can induce hematologic, hepatic and endocrine abnormalities and morphologic alterations in the brain capillaries and glial cells. Valproate elicits bone marrow suppression, reducing the number of red blood cells and platelets, and causes platelet functional abnormalities. Various data suggest that more than one mechanism of valproate-associated toxicity may exist, but the pathomechanism of cell function alterations elicited by valproate has not yet been elucidated.