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Query: UMLS:C0917798 (cerebral ischemia)
17,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We tested the hypothesis that 1- to 2-wk-old pigs (piglet) have improved recovery of cerebral blood flow (CBF), cerebral oxygen consumption (CMRO2), and somatosensory-evoked potentials (SEP) compared with 6- to 8-mo-old pigs (pig) after transient global cerebral ischemia. All animals were anesthetized with pentobarbital sodium. After tracheostomy ventilation was adjusted to maintain normoxia (arterial oxygen pressure, 100-150 mmHg) and normocarbia (arterial carbon dioxide pressure, 35-40 mmHg). Arterial blood gases, blood pressure, and hemoglobin concentration remained within physiological limits throughout the experiment. Cerebral ischemia was produced by sequentially tightening ligatures around the inferior vena cava and ascending aorta. During ischemia the electroencephalogram and SEP became isoelectric within 40 and 120 s, respectively. At 10 min of reperfusion hyperemia occurred in most brain regions (e.g., whole brain: piglet, 270 +/- 45%; pig, 316 +/- 48%). In pigs delayed hypoperfusion occurred in all regions except white matter. In contrast, piglets only had delayed hyperperfusion to the brain stem and caudate nucleus. Throughout reperfusion CMRO2 was decreased in pigs (3.3 +/- 0.4 to 1.9 +/- 0.2 ml.min-1.100 g-1) but was not different from control (2.7 +/- 0.3 ml.min-1.100 g-1) in piglets. By the end of reperfusion SEP amplitude was closer to control in piglets than pigs (55 +/- 9 vs. 32 +/- 4% of control). We conclude that 1- to 2-wk-old piglets have quicker return of CBF, CMRO2, and SEP to control values after global ischemia, which mechanistically may explain previous reports of improved neurological recovery in young animals after transient ischemia.
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PMID:Age-related cerebrovascular response to global ischemia in pigs. 224 Feb 52

Xanthine oxidase (XO) has been implicated as a source of free radicals mediating ischemia-reperfusion injury. Conversion of the non-free radical generating xanthine dehydrogenase (XD) to the free radical producing XO during ischemia has been demonstrated in several tissues. We examined the irreversible conversion of XD to XO in the dog brain after ischemia and after ischemia and reperfusion. Under pentobarbital sodium anesthesia and by use of a cerebrospinal fluid compression model of global cerebral ischemia, dogs were subjected to 30 min of ischemia (n = 8) or 30 min of ischemia and 60 min of reperfusion (n = 8). A cerebral perfusion pressure of 60 mmHg was maintained during reperfusion. Eight control dogs were not subjected to ischemia. After the dogs were killed their brains were rapidly removed and frozen in liquid nitrogen. XO and XD + XO activities were measured with a radioassay utilizing 8-[14C]hypoxanthine and separating substrate and products by thin-layer chromatography. Total XD + XO activity was significantly (P less than 0.05) decreased after ischemia and reperfusion (35.6 +/- 8.0 vs. 60.8 +/- 20.8 nmol.min-1.g protein-1 in controls, means +/- SD) but not after ischemia alone (48.2 +/- 20.4). XO/(XD + XO) was approximately 20% in all three groups. Irreversible XD to XO conversion is not an important mechanism leading to early tissue injury in global cerebral ischemia.
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PMID:No conversion of xanthine dehydrogenase to oxidase in canine cerebral ischemia. 226 Jun 92

The effect of unilateral, incomplete cerebral ischemia on CBF, unidirectional flux of alpha-aminoisobutyric acid (AIB) and sodium, and number of perfused capillaries during ischemia and reperfusion was measured in the cortex of gerbils with symptomatic ischemia. Three hours of unilateral carotid occlusion reduced the CBF to the ipsilateral cortex by 81%, with a smaller 30% decrease in the contralateral cortex. Following 11 min of reperfusion, CBF in the ipsilateral cortex returned to the preischemic value, while the contralateral blood flow decreased to 50% of control. The transfer constants for AIB and sodium in the ipsilateral cortex were reduced by 67 and 53%, respectively, after 3 h of ischemia, with no change in the contralateral cortex. The transfer constant for AIB remained decreased by 48% during the first 20 min of reperfusion, while that for sodium returned to its control value. The number of perfused capillaries was reduced 54% by 3 h of ischemia and remained decreased by 20% after 11 min of reperfusion. These data indicate that 3 h of unilateral carotid occlusion reduces the number of perfused capillaries in the ipsilateral cortex during the ischemic period. Further, the early reperfusion phase is characterized by a mismatch between capillary perfusion and CBF. Finally, early in the postischemic phase, sodium transport undergoes a selective stimulation, probably as a result of stimulation of ion transport.
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PMID:Decrease in perfusion of cerebral capillaries during incomplete ischemia and reperfusion. 230 37

Mitochondrial pyruvate-supported respiration was studied in vitro under conditions known to exist following ischemia, i.e., elevated extramitochondrial Ca2+, Na+, and peroxide. Ca2+ alone (7-10 nmol/mg) decreased state 3 and increased state 4 respiration to 81 and 141% of control values, respectively. Sodium (15 mM) and/or tert-butyl hydroperoxide (tBOOH; up to 2,000 nmol/mg protein) alone had no effect on respiration; however, Na+ or tBOOH in combination with Ca2+ dramatically altered respiration. Respiratory inhibition induced by Ca2+ and tBOOH does not involve pyruvate dehydrogenase (PDH) inhibition since PDH flux increased linearly with tBOOH concentration (R = 0.96). Calcium potentiated tBOOH-induced mitochondrial NAD(P)H oxidation and shifted the redox state of cytochrome b from 67 to 47% reduced. Calcium (5.5 nmol/mg) plus Na+ (15 mM) decreased state 3 and increased state 4 respiratory rates to 55 and 202% of control values, respectively. Sodium- as well as tBOOH-induced state 3 inhibition required mitochondrial Ca2+ uptake because ruthenium red addition before Ca2+ addition negated the effect. The increase in state 4 respiration involved Ca2+ cycling since ruthenium red immediately returned state 4 rates back to control values. The mechanisms for the observed Ca2(+)-, Na(+)-, and tBOOH-induced alterations in pyruvate-supported respiration in vitro are discussed and a multifactorial etiology for mitochondrial respiratory dysfunction following cerebral ischemia in vivo is proposed.
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PMID:Effect of peroxide, sodium, and calcium on brain mitochondrial respiration in vitro: potential role in cerebral ischemia and reperfusion. 231 94

The effects of glucose on neurologic and neuropathologic outcome following global cerebral ischemia were examined in 20 cats subjected to 14 min of cardiac arrest, followed by closed chest resuscitation and intensive care monitoring. Beginning 30 min prior to cardiac arrest, 15 ml/kg of 5% dextrose in 0.45% saline or the same volume of 0.9% saline was administered in a blinded fashion over 15 min. Ventricular fibrillation was electrically induced and cardiac resuscitation was performed according to a standardized protocol, which included closed chest cardiac compressions, epinephrine, lidocaine, sodium bicarbonate administration, and electrical defibrillation. Animals not resuscitated within 4 min were excluded from further study. Resuscitated animals were managed in an intensive care setting for 24 h postresuscitation. Neurologic deficits were scored at 2, 4, and 7 days postresuscitation. Subsequently, the animals' brains underwent histologic examination. Nine cats were excluded from data analysis. Three did not meet protocol criteria and six could not be resuscitated within 4 min. As a result of a technical error, the brain of one glucose-treated cat was not analyzed. Six saline-treated and five glucose-treated animals met all protocol criteria and survived for 7 days postresuscitation. Plasma glucose concentration before cardiac arrest was 118 +/- 24 mg/dl (mean +/- SD) in the saline group and 269 +/- 21 mg/dl in the glucose group (P less than 0.01). Neurologic outcome rank at 2, 4, and 7 days postresuscitation was significantly worse in glucose-treated cats (P less than 0.01, P less than 0.01, and P less than 0.01, respectively). The neuropathologic score did not differ between glucose- and saline-treated groups (P = 0.07).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Glucose administration before cardiac arrest worsens neurologic outcome in cats. 235 15

Serum and CSF calcium, magnesium, potassium and sodium were analyzed in 14 patients suffering from subarachnoid haemorrhage and in 10 healthy controls. The calcium and potassium concentrations in serum and CSF were decreased while magnesium unchanged and sodium were unchanged. A deranged electrolyte homeostasis was thus detectable in the CSF following subarachnoid haemorrhage. It could not be established whether symptoms of delayed cerebral ischemia were related to CSF calcium and/or potassium levels.
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PMID:Electrolyte concentrations in serum and CSF following subarachnoid haemorrhage. 235 81

We studied how the osmotic pressure gradient between blood and the brain is related to the development of ischemic brain edema. Focal cerebral ischemia was produced by left MCA occlusion in rats. Brain osmolality was determined with a vapor pressure osmometer, water content of the brain tissue was measured by wet and dry weight, and the tissue sodium and potassium contents were assayed by flame photometry. Permeability of BBB was tested by EB. These measurements were made from the cortical core of MCA territory at various intervals from 1 hr to 14 days after occlusion. Brain osmolality increased from 311 +/- 2 mOsm/kg (M +/- SE) to 329 +/- 2 mOsm/kg (n = 7, p less than 0.01) by 6 hrs after occlusion. Serum osmolality did not significantly change. The osmotic gradient between blood and the brain was about 26 mOsm/kg. Brain osmolality then decreased to 310 +/- 2 mOsm/kg by 12 hr after occlusion and remained about the same level for up to 14 days. Water content progressively increased within 1 day, then gradually decreased by 14 days. Sodium plus potassium content of the brain tissue did not increase and EB extravasation was not seen within 6 hr of occlusion. These findings indicate that an osmotic pressure gradient contributes to the formation of edema only during the early stage of cerebral ischemia. Brain osmolality is not related to tissue electrolyte change and BBB disruption to protein.
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PMID:An osmotic gradient in ischemic brain edema. 239 67

The pathophysiology and treatment of acute subarachnoid hemorrhage (SAH) are reviewed. SAH occurs when blood is released into the subarachnoid space, which surrounds the brain and spinal cord. Symptoms of SAH include severe headache, nausea, vomiting, neck pain, nuchal rigidity, and photophobia. The initial hemorrhage is fatal in 20-30% of patients. Complications of SAH include rebleeding, hydrocephalus, delayed cerebral ischemia associated with cerebral vasospasm, and seizures. The likelihood of rebleeding is increased by measures that rapidly lower intracranial pressure. The risk of developing hydrocephalus is associated with the volume of blood within the subarachnoid space and ventricular system. Cerebral vasospasm develops in 20-40% of patients, and up to 50% of affected patients die or suffer permanent neurological damage. Seizures occur in 5-15% of patients with SAH. Radiologic procedures form the foundation for the diagnosis of SAH. The most commonly used rating scale classifies the severity of SAH based on the clinical presentation of the patient. Surgery is the definitive treatment for the prevention of rebleeding. Hydrocephalus can only be treated surgically, most commonly by insertion of a drain. The only measures proved to be effective for treatment of delayed cerebral ischemia are volume expansion and the induction of hypertension. The calcium-channel blocker nimodipine was recently approved for treatment of arterial spasm in SAH. Intravenous nicardipine is also being studied for the same indication. These agents may improve clinical outcome substantially by limiting fixed neurological deficits. To prevent seizures, prophylactic antiepileptic therapy with phenytoin sodium is generally accepted. The SAH complications of rebleeding, hydrocephalus, delayed cerebral ischemia, and seizures are managed by surgical, drug, and fluid therapy.
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PMID:Pathophysiology and treatment of subarachnoid hemorrhage. 240 1

We hypothesize that enhanced activity of capillary Na,K-ATPase promotes Na+ influx into the brain and causes early edema formation in focal cerebral ischemia. The pharmacologic suppression of brain capillary Na,K-ATPase as a means to ameliorate edema formation was examined using the middle cerebral artery occlusion model in 36 cats. With the help of a catheter inserted into the middle cerebral artery, the ischemic brain area was directly perfused with 10(-5) M ouabain. Perfusion was maintained as intermittent 15-second pulse injections given every 5 (n = 6) or 2 (n = 6) minutes. By this method, the naturally occurring circulatory conditions during ischemia were not altered. Four hours after ischemia, the cortical specific gravity at each of six locations over the ischemic area was compared with the corresponding ischemic blood flow measured by the H2 clearance technique. The results show that ouabain perfused every 2 minutes significantly ameliorated edema formation compared with six control cats perfused with Krebs-Ringer solution. In a separate series of experiments, the Na+ flux across the blood-brain barrier was studied by injecting 22NaCl together with an intravascular reference (cobalt-57-labeled microspheres 15 microns in diameter) into the ischemic area. The brain uptake index of 22Na was markedly increased in the ischemic cortex of six control cats; ouabain treatment in six cats suppressed the increase of Na+ influx. The results support our hypothesis that brain capillary Na,K-ATPase activity increases during early focal ischemia, leading to enhanced Na+ together with H2O flux across the blood-brain barrier.
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PMID:Effect of enhanced capillary activity on the blood-brain barrier during focal cerebral ischemia in cats. 247 24

We induced brain edema in 72 rats by injecting 5 microliters of 3.0% wt:vol polyvinyl acetate into the left internal carotid artery, producing permanent embolization in the left cerebral hemisphere, which developed ipsilateral brain edema reproducibly. Edema was assessed 24 hours after embolization by determining the brain water content and the sodium and potassium concentrations. In this model, the free radical scavenger MCI-186 at 1.0 and 3.0 mg/kg i.v. prevented brain edema in a dose-dependent manner. At 3.0 mg/kg i.v., MCI-186 significantly reduced water content by 1.5% and improved the sodium-potassium balance to within the normal range in the embolized left hemisphere. Dexamethasone at 1.0 mg/kg i.v. did but at 3.0 mg/kg i.v. did not significantly inhibit the development of brain edema. Indomethacin at 4.0 mg/kg i.p. had no effect on brain edema. We suggest that the cyclooxygenase metabolites of arachidonic acid liberated from neuronal cell membrane phospholipids are not likely to be involved in the pathogenesis of permanent brain edema induced by polyvinyl acetate. Our results suggest that MCI-186 attenuates brain edema by suppressing the production of lipoxygenase metabolites, including free radicals or lipid peroxides, and that it may prove valuable for the treatment of brain edema associated with cerebral ischemia.
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PMID:Effect of MCI-186 on brain edema in rats. 250 9


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