The effect of carbon dioxide, lidoflazine and deferoxamine upon long term survival following cardiorespiratory arrest in rats

Brain damage after resuscitation from cardiac arrest is believed to be related to calcium influx in ischaemic neurons and to postischaemic calcium-dependent vasospasm. We therefore evaluated the potentially protective effects of the calcium-entry blocker nimodipine in a cardiopulmonary arrest model in the rat. Male Wistar rats were anaesthetized with ketamine (group I) or hexobarbital (group II) and subjected to a KCl-induced cardiac arrest during 7 min (group I) or 12 min (group II). Five minutes after resuscitation, the rats were treated intravenously in a randomized and blind fashion. Group I received either saline or 1 microgram.kg-1.min-1 or 5 micrograms.kg-1.min-1 of nimodipine and group II either saline or 1 microgram.kg-1.min-1 of nimodipine. Survival, occurrence of seizures and neurological status were assessed daily during 7 days after resuscitation. On day 7, the brains of the surviving rats were perfusion-fixed and a histopathological evaluation of the hippocampus was performed. Nimodipine, in the doses tested, had no beneficial influence on the 7 day survival rate, nor on the occurrence of seizures and the neurological and histopathological scores in the rats surviving after 7 days. With the highest dose of nimodipine, there was even a trend towards a decrease of the survival rate, probably related to the drug's hypotensive effect. Therefore, our data do not show a protective effect of nimodipine after cardiac arrest.

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Nimodipine has no beneficial effect on neurological outcome in a cardiopulmonary arrest model in the rat

Calle

Bogaert

Ridder

et al. 1990

Naunyn-Schmiedeberg's Arch Pharmacol

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Iron chelators in medicine

Hershko

1992

Molecular Aspects of Medicine

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Neurological damage in a cardiopulmonary arrest model in the rat

Calle¹,

Bogaert²,

Reempts³

et al. 1989

Journal of Pharmacological Methods

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The effect of carbon dioxide, lidoflazine and deferoxamine upon long term survival following cardiorespiratory arrest in rats

Cited by 21 publications

References 26 publications

Nimodipine has no beneficial effect on neurological outcome in a cardiopulmonary arrest model in the rat

Nimodipine has no beneficial effect on neurological outcome in a cardiopulmonary arrest model in the rat

Iron chelators in medicine

Neurological damage in a cardiopulmonary arrest model in the rat

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