UMLS:C0011570 - FACTA Search

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Query: UMLS:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Experimental investigations of the pial vessels during acutely drug-induced hypertension revealed diffuse or sausage-like distension of arterioles. Degree and type of reactions depended on blood pressure characteristics like steepness of increase, percentual increase, duration and peak value in this order. Such vasodistension is interpreted as mechanical overwhelming of smooth muscle force within the arteriolar wall during acute increase of intraluminal pressure. Clinical consequences of these results are: Vasodilators as well as sedatives with respiratory depression are contraindicated for patients with hypertensive crises. Data also make readily apparent, that short lasting acute hypertension may be fatal for patients with preexisting disturbances of blood-brain barrier function as it accelerates the development of brain edema.
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PMID:[Experimental data on the pathogenesis of hypertensive encephalopathy]. 51 Oct 79

Acute alterations in plasma bicarbonate concentration have minimal effects on intracerebral pH and cerebral blood flow, perhaps due to blood-brain barrier mechanisms. To test this hypothesis, the consequences of an acute rise in the plasma bicarbonate concentration were studied in anesthetized rats previously subjected to an acute pressure pulse in the carotid system with unilateral damage to the blood-brain barrier. In rats subjected to a "heavy" hypertensive insult, the hemisphere on the side of the lesion showed a lactic acidosis, edema, and a depression of cerebral blood flow. An increase in the plasma bicarbonate concentrations of 15--20 mEq/1 during 35 minutes provoked a marked rise in the total CO2 content of this hemisphere, and a further increase in the lactate concentration, but did not later the brain edema nor affect further the already very low cerebral blood flow. An increase in the lactate concentration and a decrease of cerebral blood flow in the "reference" hemisphere indicated that the lesion was not completely unilateral. In rats subjected to a "moderate" hypertensive insult the changes were less pronounced and statistically not significant for all the parameters. There results illustrate the importance of an intact blood-brain barrier for the maintenance of intracerebral pH in the face of acute alterations in plasma [HCO3]. The impaired cerebral blood flow after an acute hypertensive insult did not appear to be influenced by the intracerebral [HCO3].
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PMID:Effect of non-respiratory alkalosis on brain tissue and cerebral blood flow in rats with damaged blood-brain barrier. 67 46

1. An attempt was made to evaluate the pathophysiology of symptoms of hyponatremia as related to changes in brain water and electrolytes. Studies were carried out in 66 hyponatremic patients and 5 groups of experimental animals. 2. In hyponatremic patients, symptoms (depression of sensorium, seizures) correlated well with plasma Na+ (r = 0.64, p less than .001), but there was substantial overlap. In patients with acute hyponatremia, all were symptomatic and 50% died. Among patients with hyponatremia of at least 3 days duration, sympatomatic patients had plasma Na+ (115 +/- 1 mEq/L) which was significantly less (p less than .001) than that of asymptomatic patients (plasma Na+ = 122 +/- 1 mEq/L). Among symptomatic patients, mortality was 12% and 8% had seizures, while none of the asymptomatic patients died or had seizures. 3. Among 14 patients with acute (less than 12 hrs) hyponatremia, the mean plasma Na+ was 112 +/- 2 mEq/L. All such patients had some depression of sensorium and four had grand male seizures. Seven of these patients were treated with hypertonic (862 mM) NaCl, while four were treated only with fluid restriction. Of the seven patients treated with hypertonic NaCl, five survived, while three of four patients treated with fluid restriction died. There was no evidence of circulatory congestion or cerebral damage in the patients treated with hypertonic NaCl. 4. Among rabbits with acute (2-3 hours) hyponatremia (plasma Na+ = 119 +/- 1 mEq/L), all had grand mal seizures and 86% died. All such animals had cerebral edema (brain H2O content 17% above control value) but brain content of Na+, K+ and Cl- was normal. 5. Rabbits with 3 1/2 days of hyponatremia (plasma Na+ = 122 +/- 2 mEq/L) appeared to be asymptomatic, even though brain water content was 7% above normal (p less than .01). 6. Rabbits with 16 days of more severe hyponatremia (plasma Na+ = 99 +/- 3 mEq/L) were weak, anorexic, lethargic and unable to walk. Brain water content was 7% above normal, although brain osmolality (218 +/- 12 mOsm/kg H2O) was similar to plasma (215 +/- 8 mOsm/kg). Brain content of Na+, K+, Cl- and osmoles was 17 to 37% less than normal values, so that the brain established osmotic equilibrium with plasma primarily by means of a loss of electrolytes. 7. These studies suggest that in patients with hyponatremia, symptoms and morbidity are only grossly correlated with either magnitude or duration of hyponatremia. Symptoms appear to correlate best with the interplay between a net increase in brain water versus a loss oof brain electrolytes. However, even asymptomatic animals have subclinical brain edema when plasma Na+ is below 125 mEq/L, and such edema may cause permanent brain damage. Thus, many patients with similar levels of plasma Na+, particularly when they are symptomatic, should probably be treated with hypertonic NaCl infusions.
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PMID:Neurological manifestations and morbidity of hyponatremia: correlation with brain water and electrolytes. 125 11

Experiments on rats with experimental brain edema under water intoxication were made to study the effects of the neuroleptics aminazine and propazine, the central M-cholinoblocker amizyl and the alpha-adrenoblocker phentolamine on the time-course of the recovery of cortical electric activity after passing of the wave of Leao's spreading depression (SD). The drugs under study were demonstrated to have antiedematous properties under water intoxication and to make to a considerable degree for disorders in the processes of the recovery of cortical electrogenesis after SD. It is assumed that the action of the drugs on the electrophysiological parameters under study is associated with their effects on metabolic processes and with the presence of antiedematous properties.
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PMID:[Effect of neuroleptic, adreno- and cholinolytic agents on cerebral cortical function in edema]. 286 7

In experiments on cats after injection of isothiobarbamine intravenously (50 mg/kg) at 30 min, intracerebral hemorrhage prevented activation of brain glucose utilization, depression of brain oxygen utilization, surplus lactate accumulation in brain, early development of brain edema and death of cats.
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PMID:[Isothiobarbamine prevention of disorders of carbohydrate and oxygen metabolism and of the development of brain edema in the early period after an intracerebral hemorrhage]. 320 76

Experiments on rats with brain edema under water intoxication were made to examine the effect of the benzodiazepine tranquilizers diazepam and phenazepam on the time course of the recovery of brain electrical activity after passing the spreading Leao's depression wave. It was found that the drugs indicated possess antiedematous properties and improve brain function under these conditions. It is assumed that the drug action on the spreading depression is linked with their effect on metabolic processes in the brain and antiedematous properties.
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PMID:[Effect of diazepam and phenazepam on Leao's depression in brain edema]. 614 Jan 84

Moderate unilateral cerebral ischemia was produced by microembolism in 24 adult cats. Two million plastic microspheres with a diameter of 15 +/- 5 microns were injected into the left common carotid artery via the lingual artery. The physiological and metabolic responses to embolism were accessed by electrocorticography and by determining the cerebral energy state. Embolism caused an immediate slowing and voltage reduction of the ipsilateral electrocorticogram with a gradual recovery after 30 to 60 min. Some animals also had an immediate and short depression of the contralateral electrocorticogram. In spite of the market functional suppression, metabolites of the cerebral energy-producing metabolism in most of the animals changed only slightly. In the embolized hemisphere pyruvate increased from 0.06 to 0.10 mumol/g and lactate from 1.9 to 4.6 mumol/g within 5 min after embolization and remained at this level during the 4 h observation period. Phosphocreatine, adenosine triphosphate and the energy charge of the adenylate pool remained uncharged during this period. However, there was a slight increase of ATP in the non-embolized hemisphere during the early postembolic period. In two animals, the initial slowing of the electrocorticogram recurred and spread to the contralateral hemisphere, followed by bilateral flattening after a few hours. This delayed functional deterioration was accomplished by complete loss of energy-rich phosphates. These animals also had a progressive increase of cerebrospinal fluid (CSF) pressure and considerable brain swelling with cerebellar herniation after 4 h. It is concluded that unilateral cerebral embolism in the above concentration leads only to a slight increase of anerobic glycolysis without significant perturbation of the cerebral energy state, unless progressive brain swelling with cerebrellat herniation supervenes. This supports previous findings, that brain edema and not initial ischemia is the main pathogenetic factor for tissue damage in cerebral microembolism.
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PMID:The effect of mild microembolic injury on the energy metabolism of the cat brain. 615 90

To assess the effect of supratentorial cerebral ischemia on infratentorial brain function, changes in regional cerebellar blood flow (rCeBF), after right carotid occlusion for 4 hours, were studied in 30 mongolian gerbils. The regional cerebral blood flow (rCBF) in the occluded cerebral hemisphere and rCeBF in both cerebellar hemispheres were measured simultaneously by hydrogen clearance methods. Before carotid occlusion, rCBF was 0.44 +/- 0.07 ml/g brain/min, and rCeBF in the left and right cerebellar hemispheres was 0.37 +/- 0.09 and 0.40 +/- 0.09 ml/g brain/min, respectively. After carotid occlusion, rCBF decreased in all animals showing levels of above 0.20 ml/g brain/min in 14 (group A), between 0.10 and 0.19 ml/g brain/min in 7 (group B) and below 0.10 ml/g brain/min in 9 (group C). rCeBF exhibited no changes in group A and a mild reduction in group B after carotid occlusion. In group C, rCeBF was significantly reduced 30 min after carotid occlusion in the left cerebellar hemisphere followed subsequently by bilateral reduction. In groups B and C, supratentorial brain edema was observed 4 hours after occlusion, but the degree of edema was moderate. The results of the present study suggest that depression of infratentorial brain function may occur after supratentorial local cerebral ischemia, presumably due to diaschisis.
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PMID:Transtentorial diaschisis: reduction of cerebellar blood flow caused by supratentorial local cerebral ischemia in the gerbil. 683 46

Depression of somatosensory evoked potentials (SEP) after a single episode of complete asphyxia with near cardiac arrest was evaluated to determine whether persistent SEP depression is related to postresuscitation edema in cortical gray matter or subcortical white matter. Piglets (< 7 d of age) were anesthetized with sodium pentobarbital and fentanyl. Asphyxia was produced by occlusion of the endotracheal tube for 7 min. Arterial O2 saturation fell to 5%. Resuscitation was achieved in < 2 min with ventilation, epinephrine, and chest compressions. Regional brain water content was determined from the difference between wet and dry weight. Two control groups were also analyzed; one immediately after (n = 5) and one 6 h after induction (n = 7) of anesthesia. SEP amplitude became isoelectric during asphyxia and recovered to 50 +/- 13% (n = 7) of baseline 6 h after resuscitation. In the 6-h control group, SEP amplitude remained above baseline. The percent water content (mean +/- SEM) among the three groups (asphyxia versus time control versus brief anesthesia control) was not different in the cortical gray matter (83.0 +/- 0.7% versus 82.4 +/- 0.4% versus 83.2 +/- 0.3%) or subcortical white matter (75.6 +/- 0.8% versus 74.8 +/- 0.9% versus 75.6 +/- 0.5%). In seven other piglets, cerebral blood flow and O2 consumption recovered to baseline by 1 h after asphyxia. Therefore, we found that the sustained depression of SEP amplitude, after 7 min of asphyxia in immature piglets, is not related to brain edema or persistent decreases in global cerebral O2 consumption.
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PMID:Somatosensory evoked potential and brain water content in post-asphyxic immature piglets. 760 87

Experimental models of focal cerebral ischemia have provided important data on early circulatory and biochemical changes, but typically their correspondence with metabolic and hemodynamic findings in stroke patients has been poor. To fill the gap between experimental studies at early time points and rather late clinical studies, we repeatedly measured CBF, CMRO2, oxygen extraction fraction (OEF), cerebral blood volume (CBV), and CMRglc in six cats before and up to 24 h after permanent middle cerebral artery (MCA) occlusion (MCAO), using the 15O steady state and [18F]fluorodeoxy-glucose methods and a high-resolution positron emission tomography (PET) scanner. Likewise, three sham-operated control cats were studied during the same period. Final infarct size was determined on serial histologic sections. In the areas of final glucose metabolic depression that were slightly larger than the histologic infarcts, mean CBF dropped to approximately 40% of control values immediately on arterial occlusion. If further decreased to < 20% during the course of the experiment. This progressive ischemia was most conspicuous in border zones. CMRO2 fell to a lesser degree (55%), eventually reaching approximately 25% of its control level. At early stages, OEF increased mainly in the center of ischemia. With time, areas of increased OEF moved from the center to the periphery of the MCA territory. Concurrently, progressive secondary decreases in OEF in conjunction with further reductions of CBF and CMRO2 indicated the development of central necrosis. The findings are highly suggestive of a dynamic penumbra. In five cats with complete MCA infarcts, CBF decreased and OEF increased in the contralateral hemisphere after 24 h, suggesting whole-brain damage. This effect may be explained by the widespread brain edema found histologically in addition to the nonspecific CBF reductions and OEF elevations observed also in the sham-operated controls after 1 day in the experimental condition. In one cat, cortical OEF increased only transiently. Normal CMRO2 and CMRglc were eventually restored, and the final infarct was small. This study demonstrates that acute regional pathophysiologic changes can be repeatedly assessed by multivariate PET in cats. Viable tissue can be detected up to several hours after MCA occlusion, and the transition of misery-perfused regions into necrosis or preserved tissue can be followed over time. The present results support the concept of a dynamic penumbra, in which for up to 24 h tissue damage spreads progressively from the center to the periphery of ischemia. Sequential high-resolution PET provides insight into the dynamics of regional pathophysiology and may thus further the development of rational therapeutic strategies.
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PMID:Dynamic penumbra demonstrated by sequential multitracer PET after middle cerebral artery occlusion in cats. 792 54

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