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)

Intramuscular tissue pO2, pCO2, and pH were monitored distal to a pneumatic tourniquet in a dog hindleg preparation. A severe state of tissue hypoxia, hypercarbia, and acidosis was quantitated. The recovery time for tissue gases following release increased with increasing tourniquet time. Elevated c.p.k. and lactic acid values were noted at 2 hours of ischemia, reflecting the muscle changes at that time. Histologic sections revealed early signs of degeneration by 1 hour which progressively increased with increased tourniquet ischemia. On the basis of this study, we conclude that ischemia should not exceed 1 to 1 1/2 hours if significant pathophysiologic tissue changes are to be avoided. If longer time is required, intermittent release of the tourniquet for 10 minutes at the end of each hour of inflation will avoid complications.
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PMID:Pathophysiologic effects distal to a tourniquet in the dog. 3 19

The fluorescence of reduced nicotinamide adenine dinucleotide (NADH) from cerebral cortex was measured before, during, and after middle cerebral artery (MCA) occlusion and then at death of the animal. In normal cortex, NADH remained constant throughout a wide range of variations in blood pressure and Paco2. In ischemic cortex, NADH levels were higher in hypovolemic hypotensive animals than in normotensive normovolemic animals. Neither hypercapnia nor hypocapnia was effective in decreasing NADH in regions of ischemia, but the latter was associated with a degree of hypotension that interfered with interpretation of data. NADH returned to normal with restoration of flow, supporting the reversibility of this degree of ischemia. The high levels of NADH at death, compared to those during ischemia, are consistent with incomplete ischemia in this model of cerebral infarction.
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PMID:Reduced nicotinamide adenine dinucleotide fluorescence and cortical blood flow in ischemic and nonischemic squirrel monkey cortex. 2. effects of alterations in arterial carbon dioxide tension, blood pressure, and blood volume. 16 73

The influence of hypercapnia, hypoxia and status epilepticus on cerebral cortex concentrations of adenosine, adenine nucleotides and cyclic AMP was studied on lightly anaesthetized (70% N2O) and artificially ventilated rats. Neither hypercapnia (arterial PCO2 about 80 and about 300 mmHg) nor hypoxia (minimal values of 19 mmHg) altered tissue concentrations of AMP, cyclic AMP or adenosine. Bicuculline-induced status epilepticus was accompanied by increased concentrations of cyclic AMP but adenosine concentration did not change. Experiments with ischemia, and those in which tissue hypoxia was exaggerated by unilateral carotid artery ligation, showed that tissue adenosine concentrations were elevated only when AMP concentration rose. It is concluded that the marked increase in cerebral blood flow which occurs in hypoxia and status epilepticus is unrelated to changes in tissue adenosine concentration and that the increase in cyclic AMP during neuronal hyperactivity is triggered by other mechanisms than adenosine accumulation.
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PMID:Adenosine and cyclic AMP in cerebral cortex of rats in hypoxia, status epilepticus and hypercapnia. 21 98

A brief review is given of recent results which indicate that several stressful situations are accompanied by an increase in cerebral metabolic rate, mediated by extrinsic or intrinsic catecholamines. These situations include withdrawal of nitrous oxide supply in paralyzed animals ("immobilization stress"), amphetamine intoxication, hypoxia, and hypercapnia. Studies of hypercapnia (and hypoxia) suggest that activity in cerebral noradrenergic systems is enhanced by cellular acidosis. Data obtained during recirculation, following severe, transient ischemia, indicate that in spite of a general depression of cerebral metabolism (and neuronal function) some neuronal systems, notably the noradrenergic ones, show evidence of increased activity.
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PMID:Brain energy metabolism and catecholaminergic activity in hypoxia, hypercapnia and ischemia. 29 Jul 38

A marked increase in intracranial pressure (ICP) produces a concomitant increase in systemic blood pressure (the Cushing response). In this study a comparison is made between this response of systemic blood pressure to increased ICP and the blood pressure responses produced by ischemia, hypoxia, and hypercarbia of the primate brain. A carotid-to-carotid cross-perfusion system was used to produce a purely cerebral hypoxia and hypercarbia. Each stimulus, except hypercarbia, produced a hypertensive response that was qualitatively and quantitatively similar. These responses were characterized by a short latent period, a rapid development, and an increase in mean arterial pressure of 60% or more. The similarity of the responses suggests that these stimuli act through a final common pathway independent of the purely mechanical effects of increased ICP upon the brain.
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PMID:The relation of cerebral ischemia, hypoxia, and hypercarbia to the Cushing response. 41 51

We measured ventilatory responses to CO2 (delta VI/delta PCO2) and transient hypoxia (delta VI/delta SaO2) during reductions of brain blood flow (BBF) to 70% and 50% of control in unanesthetized goats. Increase in inspiratory volume per change in CO2 tension (delta VI/delta PCO2) was measured during rebreathing with sampling of both arterial and cerebral venous blood; increase in inspiratory volume per fall in arterial oxygen saturation (delta VI/delta SaO2) was assessed by the transient N2 inhalation method. Delta VI/delta SaO2 did not significantly change at 70% BBF, but was depressed at 50% BBF. Delta VI/delta PCO2 increased (0.94 +/- 0.18 to 1.29 +/- 0.24 l . min-1 . Torr-1) at 70% BBF if arterial CO2 tension were used to represent the CO2 stimulus but was unchanged if venous CO2 tension were used. At 50% BBF, delta VI/delta PCO2 was depressed (0.38 +/- 0.13 l . min-1 . Torr-1) for both representations of the CO2 stimulus. Brain ischemia increased blood pressure and heart rate but blunted the increase in BBF caused by hypercapnia. We conclude that 1) moderate brain ischemia (70% BBF) does not affect chemosensitivity to hypoxia and CO2, 2) delta VI/delta PCO2 may not be accurately determined from PaCO2 during brain ischemia because cerebrovascular reactivity to CO2 is depressed, and 3) severe brain ischemia (50% BBF) blunts delta VI/delta SaO2 and delta VI/delta PCO2, probably as a consequence of hypoxic depression of the respiratory neurons.
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PMID:Effects of graded reduction of brain blood flow on chemical control of breathing. 53

Hypo- and hypercapnia produced in dogs had no effect on the level of endogenous prostaglandin-like substances (PLS) bioassayed continuously in sagittal sinus blood. Increased release of endogenous PLS, predominantly of prostaglandin E-like substance into cerebral venous blood occurred in conditions injurious to brain, such as hypoxia cerebral ischemia and embolism. It may be concluded that increased output of PLS into cerebral venous blood is not related to functional changes in cerebral blood flow, but results from cerebral and/or cerebrovascular damage. Enchanced generation of endogenous prostaglandins and their release into cerebral venous blood preceed the development of structural alterations evoked by hypoxia and ischemia in brain.
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PMID:Release of prostaglandin--like substances into cerebral venous blood in conditions injurious to brain in the dog. 74 12

The aim of this paper has been to review and discuss the past and the recent investigations concerned with the study of cerebral transport phenomena in pathological conditions which have been divided into two main parts: (1) the effects of experimentally induced blood brain barrier (BBB) injury by (a) HgCl2 or (b) hyper-osmolar intracarotic perfusate; and (2) the effects of ischemia or of an altered oxygen saturation and pCO2 tension on glucose and/or amino acids and/or protein transport across the BBB, in the syanptosomes and cerebral capillaries. The most important observations were as follows: (1) HgCl2 or hyperosmolar perfusates produced an increased BBB permeability to protein tracers but the brain uptake of glucose analogues was found decreased following the former, and increased (except for lactamide) after the latter treatment. (2) (a) In ischemia, the noted increased vesicular transport of peroxidase, as well as the increased saturable and non-saturable passage of glucose analogues across the BBB depended on the duration of cerebral deprivation of blood supply which never resulted in degeneration of endothelial cells of the brain vessels. (b) The progressively decreased specific 2-deoxy-D-glucose uptake in the synaptosomes seen during cerebral ischemia of 30-180 minutes returned to the level of controls 1 hour after reestablishment of cerebral circulation. (c) A decrease in brain uptake of glucose analogues and amino acids (with few exceptions) was observed in severe hypoxia and hypercapnia while an increase or no change in the brain uptakes was seen in hypocapnia. (d) Preliminary investigations of the 2-DG uptake by the cerebral capillaries obtained by fractionation of the brain from animals subjected to normal or altered oxygen saturation and pCO2 tension suggested that cerebral glucose uptake may be directly related to its capillary function.
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PMID:Pathological aspects of brain transport phenomena. 78 95

One hypothesis on the pathogenesis of post-ischemic-anoxic encephalopathy is impaired cerebral perfusion or the no-reflow phenomenon. Therapies aimed at preventing the development of this phenomenon are increased cerebral perfusion pressure (CPP) and hyperventilation or hypercapnia. Using a dog model in which we have described the progressive development of post-ischemic (PI) cerebral hypoperfusion after 15 minutes of global ischemia induced by aortic and vena cavae clamping, our aims in this study were to determine during the PI cerebral hypoperfusion period: (1) cerebrovascular reactivity to CO2, and (2) cerebral blood (CBF) autoregulation. Post-ischemic cerebral hypoperfusion to about 50% of normal was not accompanied by raised intracranial pressure (ICP) but cerebrovascular CO2 reactivity was markedly attenuated while maintaining some kind of autoregulatory phenomenon. Cerebral uptake of oxygen was not significantly affected by changing PACO2 from 20 to 60 torr at constant CPP or by changing CPP from 64 to 104 torr at constant PaCO2. These results suggest that increasing both CPP and hypocapnia/hypercapnia would not significantly attenuate PI neurological deficit after global cerebral ischemia. However, in two dogs inadvertently hemodiluted in the PI period, increasing CPP from 50 to 200 torr increased CBF by 200%, suggesting that hemodilution plus increased CPP may be effective therapy for amelioration of post-ischemic-anoxic encephalopathy. The significance of our findings on cerebrovascular CO2 reactivity and autoregulation with respect to the mechanism of the no-reflow phenomenon is discussed.
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PMID:Global ischemia in dogs: cerebrovascular CO2 reactivity and autoregulation. 115 79

In the newborn pig, cerebral vasodilator responses to hypercapnia are lost after cerebral ischemia. We examined the effect of topical application of arachidonic acid (30 micrograms/ml, 20 min) to the postischemic piglet brain on subsequent pial arteriolar dilated in response to hypercapnia (10% CO2 ventilation) and topical isoproterenol (10(-6), 10(-7) M). After 20 min cerebral ischemia, pial arterioles did not dilate to hypercapnia but responded to isoproterenol in a fashion similar to before ischemia. Treatment with arachidonic acid after ischemia restored pial arteriolar dilation to hypercapnia. Hypercapnia caused an increase in cortical periarachnoid concentration of 6-ketoprostaglandin F1 alpha (6-keto-PGF1 alpha) before but not after ischemia. After postischemic treatment with arachidonic acid, the increase in cortical periarachnoid fluid 6-keto-PGF1 alpha during hypercapnia was restored. Therefore, topical application of arachidonic acid to cerebral vessels restores cerebral prostanoid synthesis and pial arteriolar dilation in response to hypercapnia that has been abolished by ischemia.
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PMID:Topical arachidonic acid restores pial arteriolar dilation to hypercapnia of postischemic newborn pig brain. 141 98

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