OBJECTIVES: Hypothermia is still unproven as beneficial treatment in human stroke, although in animal models, conditioning the brain with hypothermia has induced tolerance to insults. Here, we delineate the feasibility of drug-induced mild hypothermia in reducing ischemic brain damage when conditioning before (preconditioning) and after (postconditioning) experimental stroke. METHODS: Hypothermia was induced in rats with a bolus of 6 mg/kg talipexole followed by 20 h continuous talipexole infusion of 6 mg/kg in total. Controls received similar treatment with saline. The core body temperature was continuously monitored. In preconditioning, hypothermia was terminated before either reversible occlusion of the middle cerebral artery (MCAO) for 60 min or global ischemia for 10 min with 2-vessel occlusion and hypotension. In postconditioning, rats experienced 60 min of MCAO before hypothermia was induced either immediately or with 3 h delay. Rats survived ischemia for 2, 7 or 90 days. Infarct volumes were quantified by stereology. Additional experiments of methodological relevance were included in the study. RESULTS: Talipexole induced mild hypothermia (35.1±1.1 to 36.0±0.5°C) for <20 h. Hypothermic pre- and postconditioning reduced infarct sizes by more than 60% as monitored during the first 90 days after experimental stroke (p<0.05). CONCLUSION: Talipexole is registered for use as a dopamine substitute in humans with Parkinson's disease. Although dosages cannot be directly translated to patients, our study exemplifies in an animal model that drug-induced hypothermia in a clinical setting might reduce cerebral ischemic damage before neuro- and cardiac surgical procedures and after stroke.
OBJECTIVES:Hypothermia is still unproven as beneficial treatment in humanstroke, although in animal models, conditioning the brain with hypothermia has induced tolerance to insults. Here, we delineate the feasibility of drug-induced mild hypothermia in reducing ischemic brain damage when conditioning before (preconditioning) and after (postconditioning) experimental stroke. METHODS:Hypothermia was induced in rats with a bolus of 6 mg/kg talipexole followed by 20 h continuous talipexole infusion of 6 mg/kg in total. Controls received similar treatment with saline. The core body temperature was continuously monitored. In preconditioning, hypothermia was terminated before either reversible occlusion of the middle cerebral artery (MCAO) for 60 min or global ischemia for 10 min with 2-vessel occlusion and hypotension. In postconditioning, rats experienced 60 min of MCAO before hypothermia was induced either immediately or with 3 h delay. Rats survived ischemia for 2, 7 or 90 days. Infarct volumes were quantified by stereology. Additional experiments of methodological relevance were included in the study. RESULTS:Talipexole induced mild hypothermia (35.1±1.1 to 36.0±0.5°C) for <20 h. Hypothermic pre- and postconditioning reduced infarct sizes by more than 60% as monitored during the first 90 days after experimental stroke (p<0.05). CONCLUSION:Talipexole is registered for use as a dopamine substitute in humans with Parkinson's disease. Although dosages cannot be directly translated to patients, our study exemplifies in an animal model that drug-induced hypothermia in a clinical setting might reduce cerebral ischemic damage before neuro- and cardiac surgical procedures and after stroke.
Authors: Yuanzheng Lu; Xiaoyun Zeng; Xiaoli Jing; Meixian Yin; Mms Mary P Chang; Hongyan Wei; Yan Yang; Xiaoxing Liao; Gang Dai; Chunlin Hu Journal: Exp Biol Med (Maywood) Date: 2019-09-17
Authors: Sarah Sj Rewell; Amy L Jeffreys; Steven A Sastra; Susan F Cox; John A Fernandez; Elena Aleksoska; H Bart van der Worp; Leonid Churilov; Malcolm R Macleod; David W Howells Journal: J Cereb Blood Flow Metab Date: 2017-01-13 Impact factor: 6.200