UMLS:C0022116 - FACTA Search

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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of intravenous infusion of 10 per cent glycerol on regional cerebral blood flow (using hydrogen bolus and Xenon-133 (133Xe) clearance methods) and metabolism was investigated in 57 patients with recent cerebral infarction. Hemispheric blood flow (HBF) increased, together with increase in regional cerebral blood flow (rCBF) and cerebral blood volume (rCBV), in foci of brain ischemia. Hemispheric oxygen consumption (HMIO2) decreased together with hemispheric respiratory quotient. Systemic blood levels of glucose, lactate, pyruvate, and triglycerides also increased after glycerol while free fatty acids (FFA) and inorganic phosphate (Pi) decreased. Hemispheric glucose consumption was unaltered after glycerol so that hemispheric glucose to oxygen ratio tended to rise. Pyruvate and lactate production by brain was unchanged. Glycerol moved across the blood brain barrier into brain and cerebrospinal fluid (CSF). Release of FFA and Pi from infarcted brain was reversed by glycerol. Total phosphate balance was maintained actoss brain both before and after glycerol infusion. Triglycerides increased in CSF after glycerol, originating either from cerebral blood or as a result of lipogenesis in cerebral tissue. The EEG Recording and neurological status of the patients improved despite decreased brain oxygen consumption. Results of this study suggest that after intravenous infusion of 10 per cent glycerol in patients with recent cerebral infarction, glycerol rapidly enters the CSF and brain compartments and favorably affects the stroke process in two ways: first, by redistribution of cerebral blood flow with increase in rCBF and rCBV in ischemic brain secondary to reduction in focal cerebral edema; and second glycerol may become an alternative source of energy either by being directly metabolized by the brain, or indirectly, by enhancing lipogenesis, or by both processes. Involvement of glycerol in lipogenesis with esterification to accumulated FFA might lead to improved coupling of oxidative phosphorylation, a hypothesis that fits the finding of improved neuronal function despite further decrease in cerebral hemispheric oxygen consumption.
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PMID:Circulatory and metabolic effects of glycerol infusion in patients with recent cerebral infarction. 109 Mar 93

A PGI2 derivative, OP-41483, and a hyperosmotic agent, glycerol, were tested for possible beneficial effects on brain edema, metabolism and pathological changes in cerebral ischemia. Combination treatment with these agents was also tested. Cerebral ischemia was produced in spontaneously hypertensive rats, using bilateral common carotid artery ligation (BLCL). OP-41483 was administered four times, hourly (500 ng/kg x 4, i.p.). Ten percent glycerol was administered intravenously (6.6 ml/kg). And, for the combination treatment, OP-41483 was administered three times, hourly (500 ng/kg x 3, i.p.), and 10% glycerol was administered intravenously (6.6 ml/kg) in the same manner as the glycerol treated group. In ischemic controls, saline was administered intravenously (6.6 ml/kg). After 3 h of ischemia, brain water content and metabolites were determined and pathological observation was conducted using electron microscopy. OP-41483 treated animals maintained higher levels of ATP concentration and reduced accumulation of lactate, but showed no difference in brain water content compared to saline treated controls. Glycerol treated animals showed significance in terms of reduction of brain water content and accumulation of lactate. Glycerol abated the depletion of ATP concentration. OP-41483+glycerol treated animals showed the most significant effect on the reduction of brain water content and accumulation of lactate. The combination treatment also maintained higher levels of ATP concentration. Additionally, swelling of astrocytic foot processes and mitochondria with destroyed crista were not observed pathologically in the combination treated animals. These results show that OP-41483, glycerol and combination treatment are beneficial in the treatment of cerebral ischemia. They also indicate that the combination treatment significantly enhances the protective effects compared to individual treatment.
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PMID:Effect of a prostacyclin derivative (OP-41483) and a hyperosmotic agent (glycerol) on brain edema and metabolism in cerebral ischemia. 147 49

Using two different models of non ischemic and transient cerebral ischemia in SHR, the effect of hyperosmolar solution with intravenous 10% glycerol on serum lipid peroxides, plasma prostaglandins (TXA2, PGI2), brain water content and brain metabolites were studied. Glycerol did not influence the levels of lipid peroxides, plasma prostaglandins and brain water content in the non ischemic rats. In the transient ischemia group, on the other hand, serum lipid peroxides were significantly reduced in the glycerol administrated group. On the study of plasma prostaglandins, there was no difference of TXA2 levels between two groups, but PGI2 levels were significantly increased in the glycerol administrated group. Brain water content was significantly decreased. And on the study of brain metabolites, ATP concentrations remained higher and lactate concentrations were lower in the glycerol administrated group compared with those in the control group. But there was no difference with pyruvate concentrations between two groups, furthermore L/P ratio improved in the glycerol administrated group. Besides the effect on reduction of brain edema as for hyperosmolar solution, glycerol may indicate improvement of ischemic impediments on brain by the action of antioxidation and reinforcement of PGI2.
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PMID:[Effect of glycerol administration on experimental cerebral ischemia--Part 1. Studies on lipid peroxides, prostaglandins, brain edema and brain metabolites]. 337 Jan 71

In ischemic acute renal failure oxygen free radicals may mediate injury. In addition, iron appears to play a critical role in hydroxyl radical formation and lipid peroxidation during reperfusion of ischemic kidneys. To determine whether iron may play a similar role in pigment (heme protein)-induced acute renal failure, we studied the effects of the iron chelator deferoxamine in two experimental models of pigment-induced acute renal failure, intramuscular glycerol injection and intravenous hemoglobin infusion without and with concurrent ischemia in the rat. Intramuscular injection of 50% glycerol (5 ml/kg) caused inulin clearance to fall to 0.13 +/- 0.03 (SE) ml/min (normal value, 1.0-1.2 ml/min). Continuous infusion of deferoxamine beginning at the time of glycerol injection significantly attenuated this renal dysfunction. Deferoxamine-treated animals had an inulin clearance of 0.37 +/- 0.06 ml/min (P less than 0.01). Glycerol injection was also associated with significant lipid peroxidation, measured as renal malondialdehyde content. Deferoxamine-treated glycerol-injected rats had renal malondialdehyde content not significantly different from control animals. In another model of heme pigment-induced renal injury, hemoglobin was infused to produce hemoglobinuria. Inulin clearance 1 h after hemoglobin infusion was significantly reduced to 0.84 +/- 0.5 ml/min (P less than 0.025). Infusion of deferoxamine after hemoglobin prevented the hemoglobin-induced decrease in inulin clearance. Thirty minutes of renal ischemia followed by infusion of hemoglobin resulted in more severe renal dysfunction with inulin clearance of 0.54 +/- 0.08 ml/min. Deferoxamine infused at the time of reperfusion attenuated the fall in glomerular filtration rate after ischemia and hemoglobin infusion:inulin clearance 1.04 +/- 0.07 (P less than 0.005).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hemoglobin- and myoglobin-induced acute renal failure in rats: role of iron in nephrotoxicity. 341 10

Glycerol, the end product of phospholipid degradation, was measured in cat brains under pathophysiological conditions known to cause activation of lipolysis, namely, bicuculline-induced seizures, permanent focal cerebral ischemia (2 hr of middle cerebral artery occlusion), and global cerebral ischemia (15 min of complete cerebral ischemia with or without 2 hr of recirculation). In addition, ATP and lactate were measured in order to correlate the activation of lipid degradation with disturbances in the energy-producing metabolism. A highly significant increase in the tissue glycerol content was observed after 1 hr of bicuculline-induced seizures (from 0.29 +/- 0.07 mumol/g in control animals to 1.30 +/- 0.06 mumol/g in seizure animals; P less than 0.001) or after 15 min of complete cerebral ischemia (from 0.29 +/- 0.07 to 1.17 +/- 0.14 mumol/g; P less than 0.01). Furthermore, a close correlation was found between the increase in glycerol and the increase in lactate or decrease in ATP after permanent focal ischemia. In contrast, following recirculation after complete cerebral ischemia, restoration of the energy pool did not lead to a reduction of the glycerol formed during ischemia. It is concluded that glycerol is a useful indicator of lipid degradation under pathological conditions. Since glycerol formed during vascular occlusion is trapped in brain cells, presumably owing to low glycerol kinase activity, it can be used as a stable postischemic indicator of ischemia-induced lipid degradation.
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PMID:Glycerol as an indicator of lipid degradation in bicuculline-induced seizures and experimental cerebral ischemia. 350 34

Glycerol or fructose (40 mM) was added to the control perfusate and renal function was observed in the isolated perfused rat kidney during nonischemic perfusions or perfusions following 30 min of clamp ischemia. Addition of glycerol or fructose resulted in lowering adenosine triphosphate (ATP) levels to 62 and 35%, respectively, of levels achieved with control perfusate under nonischemic conditions (p less than 0.01). Total adenine nucleotides (TAN) were also lowered to 67% with glycerol and 61% with fructose of control values under nonischemic conditions (p less than 0.05). However, physiologic parameters of renal plasma flow and inulin clearance were essentially unaffected by either glycerol or fructose. Following ischemia, glycerol and fructose reduced ATP levels to 51 and 37% and TAN levels to 67 and 65%, respectively, of values seen with control perfusate. However, recovery of renal plasma flow and inulin clearance were uneffected by the addition of either glycerol or fructose. Thus, a 33-65% reduction in renal tissue ATP by glycerol or fructose does not appear to have a deleterious effect on organ function in the basal state or during recovery from an ischemic insult in the isolated perfused rat kidney.
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PMID:Effects of adenosine triphosphate depletion in the isolated perfused rat kidney. 369 97

The state of water in cerebral ischemia was studied by using the proton nuclear magnetic resonance (1H-NMR) method. Cerebral ischemia was induced experimentally in Mongolian gerbils by unilateral ligation of the common carotid artery. Longitudinal (T1) and transverse (T2) relaxation times of the ischemic brain were measured with a pulse FT-NMR spectrometer and the water content was determined by the wet/dry method. Quantitative analysis of the relaxation times was performed sequentially during the initial 7 hours following ligation and the data were compared with those of brain edema previously reported by S. Naruse in the rat. Characteristic findings in brain ischemia include prolongation of the slow component of T2 and increase in the water content. A quantitative comparison of relaxation rate and water content demonstrates that ischemic brain edema in Mongolian gerbils is different from cytotoxic and vasogenic types of brain edema. When R2 (1/T2) was plotted against the water content, the slope value of ischemia in the gerbil was between the slope values of the TET intoxication and cold injury induced edemas reported previously. From these results, it might be said that ischemic brain edema includes both the cytotoxic and vasogenic types of brain edema. Glycerol was demonstrated to affect brain ischemia by decreasing the water content and by shortening the slow component of T2. By analysis of the relaxation times and water content, we examined the pathophysiological characteristics of water molecules in ischemic brain tissue.
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PMID:Proton NMR relaxation times in ischemic brain edema. 381 Jul 13

[2-3H]Glycerol and [1-14C]arachidonic acid were injected into the region of the frontal horn of the left ventricle of mice and were distributed rapidly throughout the brain. After 10 sec, most of the radioactive fatty acid was found in the hemisphere near the injection site; after 10 min, it was recovered in similar proportions in the cerebellum and brain stem. [2-3H]Glycerol showed a heterogeneous distribution, with most of the label remaining in the left hemisphere even after 10 min. On a fresh weight basis, cerebrum, cerebellum, and brain stem were found to contain similar amounts of labeled glycerol. However, the amount of [1-14C]arachidonate in cerebrum was only 50% of that recovered from cerebellum or brain stem. Brain ischemia or a single electroconvulsive shock reduced the spread of the label, producing an accumulation of radioactivity in the injected hemisphere, except for an increase in [2-3H]glycerol in the brain stem during ischemia. Despite the significant decrease in available precursor in the cerebellum and brain stem after electroshock, the amount of label incorporated into lipids was not altered in these areas and only slightly diminished in the cerebrum.
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PMID:Diffusion of intracerebrally injected [1-14C]arachidonic acid and [2-3H]glycerol in the mouse brain. Effects of ischemia and electroconvulsive shock. 682 Apr 76

Brain cell swelling is a consequence of seizure, ischemia or excitotoxicity. Changes in light reflectance from cortical surface are now used to monitor brain activity but these intrinsic signals are poorly understood. The objectives of this study were first, to show that changes in light transmittance were correlated with cell volume and second, to image increases in light transmittance as they related to neuronal activation. Transverse hippocampal slices from the rat were used for the study. Brief exposure (4-6 min) to hypo-osmotic artificial cerebrospinal fluid (-40 mOsm) elevated light transmittance consistently and reversibly in most regions of the slice and particularly in CA1 dendritic regions. Neither zero-Ca2+ artificial cerebrospinal fluid nor tetrodotoxin altered the transmittance increase and its subsequent reversal, suggesting that it was dependent on osmolality but independent of synaptic transmission and neuronal firing. The amplitude of the CA1 population spike evoked from Schaffer collaterals increased concomitantly with the hypo-osmotic increase in light transmittance, providing evidence that the extracellular tissue resistance increased. Hyper-osmotic artificial cerebrospinal fluid (+40 mOsm) containing impermeant mannitol consistently lowered light transmittance and the amplitude of the population spike. Glycerol (+40 mOsm), which is cell permeant, did not have an affect. Taken together these observations indicate that osmotic challenge alters light transmittance by inducing changes in cell volume. Transmittance increases induced by hypo-osmotic artificial cerebrospinal fluid or 10 microM kainate were small in the CA1 cell body region compared to dendritic regions. Similarly, orthodromic stimulation of axons terminating in stratum oriens or in stratum radiatum evoked transmittance increases only in their respective postsynaptic areas. In contrast, the cell body region and its adjacent proximal-apical dendrites (both sites of action potential initiation) could display dramatic increases in light transmittance upon brief exposure to 20 mM K+. The response, which may represent neuronal damage, was blocked in tetrodotoxin. Antidromic stimulation evoked a weak response in these same proximal areas. We conclude that activity-dependent increases in light transmittance across brain slices primarily reveal glial and neuronal swelling associated with excitatory synaptic input and action potential discharge. The signal can be imaged in real time to reveal neuronal activation, not only among hippocampal areas, but among neuronal regions. Cell swelling is a known consequence of excessive neuronal discharge. Therefore, the imaging of changes in light transmittance across brain slices should prove useful in monitoring epileptiform and excitotoxic states.
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PMID:Imaging cell volume changes and neuronal excitation in the hippocampal slice. 783 Aug 84

1. We investigated the effect of efonidipine hydrochloride (NZ-105) against acute renal failure (ARF) in male Wistar rats. ARF was produced by ischemia or glycerol. 2. Ischemia-induced ARF was produced by right nephrectomy and clamping of the left renal artery for 60 min, followed by reperfusion. NZ-105 (20 mg/kg) was orally administered twice a day for 3 days before ARF. The plasma creatinine and urea nitrogen concentrations were markedly elevated in the ischemia ARF group on the 1st day, but the elevation was significantly suppressed by NZ-105 treatment. 3. Glycerol-induced ARF was produced by intramuscular injection of 50% (v/v) glycerol (10 ml/kg) in rats which were restricted to drinking water for 24 hr. NZ-105 (20 mg/kg) was orally administered twice a day for 3 days before ARF. NZ-105 significantly attenuated the severe impairment of creatinine and urea nitrogen clearances and the elevated fractional sodium excretion (FENa) caused by ARF. 4. In the kidney homogenate, NZ-105 (10(-6)-10(-4) M) inhibited lipid peroxidation induced by ascorbic acid and Fe or by NADPH and the inhibitory effect of NZ-105 was stronger than alpha-tocopherol, an antioxidant agent. NZ-105 (10(-5)-10(-3) M) showed radical scavenging action against diphenyl-p-picrylhydrazyl and galvinoxyl induced radicals. 5. These findings suggest that NZ-105 prevents the renal damage caused by the two kinds of ARF. Moreover, the inhibitory effects of NZ-105 against lipid peroxidation and radical formation may be one of the mechanisms involved in the prevention of ARF.
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PMID:Effects of efonidipine hydrochloride (NZ-105), a new calcium antagonist, against acute renal failure in rats. 789 60

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