Effect of the ganglioside GM1, on cerebral metabolism, microcirculation, recovery kinetics of ECoG and histology, during the recovery period following focal ischemia in cats.

The effect of the ganglioside GM1 on the recovery of local cerebral glucose metabolism (lCMRgl), recovery kinetics of cerebrocortical electrical activity, cerebral blood flow and redox state as well as histological changes following focal ischemia has been studied in the cat. Ischemia was produced by occlusion of the left middle cerebral artery (MCA), and GM1 (30 mg/kg) was injected intravenously at 30 min after the MCA occlusion or at the time of release of the occlusion, at 120 min. Another group of animals were subjected to the same ischemic insult, but without GM1 treatment, and sham-operated treated and not treated cats were also studied. The animals of both GM1-treated and non-treated stroke groups were classified into 2 groups (severe and moderate) depending on the depression of electrocortical activity in the ischemic hemisphere at 30 min of the ischemia. There was a significant increase in local cerebral blood flow in the ischemic area in the treated animals. Additionally there was a significant treatment effect on the left peripheral MCA territory for lCMRgl in the 30 min treated moderate group, (p less than .05). This group of animals showed decreased lCMRgl accompanied by less severe histological damage suggesting that GM1 may produce metabolic depression so as to maintain a normal flow-metabolism couple and prevent ischemic structural damage. The possible mechanism of metabolic depression induced by GM1 is briefly discussed.