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Reduced blood-brain barrier permeability after cardiac arrest by conjugated superoxide dismutase and catalase in piglets

Cardiac arrest and resuscitation in immature piglets result in a delayed increase in blood-brain barrier permeability. We tested the hypothesis that pretreatment with oxygen radical scavengers reduces postischemic permeability. Permeability was assessed by measuring the plasma-to-brain transfer coef...

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Published in:	Stroke (1970) 1994-09, Vol.25 (9), p.1830-1834
Main Authors:	Schleien, C L, Eberle, B, Shaffner, D H, Koehler, R C, Traystman, R J
Format:	Article
Language:	English
Subjects:	Aminoisobutyric Acids - pharmacokinetics Analysis of Variance Animals Blood Pressure Blood-Brain Barrier - drug effects Blood-Brain Barrier - physiology Capillary Permeability - drug effects Capillary Permeability - physiology Cardiopulmonary Resuscitation Catalase - pharmacology Epinephrine - pharmacology Free Radical Scavengers Heart Arrest - physiopathology Ischemic Attack, Transient - physiopathology Polyethylene Glycols - pharmacology Reference Values Superoxide Dismutase - pharmacology Swine Time Factors
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container_issue	9
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container_title	Stroke (1970)
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creator	Schleien, C L Eberle, B Shaffner, D H Koehler, R C Traystman, R J
description	Cardiac arrest and resuscitation in immature piglets result in a delayed increase in blood-brain barrier permeability. We tested the hypothesis that pretreatment with oxygen radical scavengers reduces postischemic permeability. Permeability was assessed by measuring the plasma-to-brain transfer coefficient of the small amino acid, alpha-aminoisobutyric acid, in 2- to 3-week-old anesthetized piglets. Three groups were studied: (1) a nonischemic time control group (n = 5), (2) an ischemia group (n = 8) pretreated with 5 mL of polyethylene glycol vehicle, and (3) an ischemia group (n = 8) pretreated with polyethylene glycol conjugated to superoxide dismutase (10,000 U/kg) and to catalase (20,000 U/kg). The ischemia protocol consisted of 8 minutes of ventricular fibrillation, 6 minutes of cardiopulmonary resuscitation, defibrillation, and 4 hours of spontaneous circulation. The mean +/- SEM of the transfer coefficient of alpha-aminoisobutyric acid in cerebrum was (in microL/g per minute): 1.54 +/- 0.37 in the nonischemic group, 2.04 +/- 0.26 in the ischemia group treated with vehicle, and 1.29 +/- 0.25 in the ischemia group treated with oxygen radical scavengers. Postischemic values with scavenger treatment were significantly lower than those with vehicle treatment in cerebrum, cerebellum, medulla and cervical spinal cord. Pretreatment with oxygen radical scavengers reduces postischemic blood-brain barrier permeability by a small amino acid. These data are consistent with oxygen radical-mediated dysfunction of cerebral endothelium in a pediatric model of cardiopulmonary resuscitation.
doi_str_mv	10.1161/01.STR.25.9.1830
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We tested the hypothesis that pretreatment with oxygen radical scavengers reduces postischemic permeability. Permeability was assessed by measuring the plasma-to-brain transfer coefficient of the small amino acid, alpha-aminoisobutyric acid, in 2- to 3-week-old anesthetized piglets. Three groups were studied: (1) a nonischemic time control group (n = 5), (2) an ischemia group (n = 8) pretreated with 5 mL of polyethylene glycol vehicle, and (3) an ischemia group (n = 8) pretreated with polyethylene glycol conjugated to superoxide dismutase (10,000 U/kg) and to catalase (20,000 U/kg). The ischemia protocol consisted of 8 minutes of ventricular fibrillation, 6 minutes of cardiopulmonary resuscitation, defibrillation, and 4 hours of spontaneous circulation. The mean +/- SEM of the transfer coefficient of alpha-aminoisobutyric acid in cerebrum was (in microL/g per minute): 1.54 +/- 0.37 in the nonischemic group, 2.04 +/- 0.26 in the ischemia group treated with vehicle, and 1.29 +/- 0.25 in the ischemia group treated with oxygen radical scavengers. Postischemic values with scavenger treatment were significantly lower than those with vehicle treatment in cerebrum, cerebellum, medulla and cervical spinal cord. Pretreatment with oxygen radical scavengers reduces postischemic blood-brain barrier permeability by a small amino acid. 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We tested the hypothesis that pretreatment with oxygen radical scavengers reduces postischemic permeability. Permeability was assessed by measuring the plasma-to-brain transfer coefficient of the small amino acid, alpha-aminoisobutyric acid, in 2- to 3-week-old anesthetized piglets. Three groups were studied: (1) a nonischemic time control group (n = 5), (2) an ischemia group (n = 8) pretreated with 5 mL of polyethylene glycol vehicle, and (3) an ischemia group (n = 8) pretreated with polyethylene glycol conjugated to superoxide dismutase (10,000 U/kg) and to catalase (20,000 U/kg). The ischemia protocol consisted of 8 minutes of ventricular fibrillation, 6 minutes of cardiopulmonary resuscitation, defibrillation, and 4 hours of spontaneous circulation. The mean +/- SEM of the transfer coefficient of alpha-aminoisobutyric acid in cerebrum was (in microL/g per minute): 1.54 +/- 0.37 in the nonischemic group, 2.04 +/- 0.26 in the ischemia group treated with vehicle, and 1.29 +/- 0.25 in the ischemia group treated with oxygen radical scavengers. Postischemic values with scavenger treatment were significantly lower than those with vehicle treatment in cerebrum, cerebellum, medulla and cervical spinal cord. Pretreatment with oxygen radical scavengers reduces postischemic blood-brain barrier permeability by a small amino acid. 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subjects	Aminoisobutyric Acids - pharmacokinetics Analysis of Variance Animals Blood Pressure Blood-Brain Barrier - drug effects Blood-Brain Barrier - physiology Capillary Permeability - drug effects Capillary Permeability - physiology Cardiopulmonary Resuscitation Catalase - pharmacology Epinephrine - pharmacology Free Radical Scavengers Heart Arrest - physiopathology Ischemic Attack, Transient - physiopathology Polyethylene Glycols - pharmacology Reference Values Superoxide Dismutase - pharmacology Swine Time Factors
title	Reduced blood-brain barrier permeability after cardiac arrest by conjugated superoxide dismutase and catalase in piglets
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