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)

Vasospasm in revascularized tissue can compromise tissue perfusion even though the microsurgical anastomoses remain patent. Circulating catecholamine stimulates peripheral vasoconstriction. Chemical vasospasm was induced by the intraarterial administration of norepinephrine to denervated rat hind limbs. Heel pad blood flow was assessed by laser-Doppler velocimetry. Mean blood flow was 463 +/- 106 in the denervated leg and 337 +/- 50 in the opposite (intact) leg (p less than 0.01). Flow in the denervated leg decreased 78 percent (463 +/- 106 to 100 +/- 23) within 5 minutes of norepinephrine administration and did not return to normal for 30 minutes. Norepinephrine administration in the presence of 1 and 3 hours of ischemia decreased flow at 5 minutes to 6.6 and 6.0 percent of normal, respectively (31 +/- 14, 28 +/- 14, control 100 +/- 23; p less than 0.001). Administration of intraarterial norepinephrine distal to a femoral artery occluded for 1 and 5 minutes reduced flow following clamp release to 11.2 and 7.1 percent of normal 5 minutes after clamp release (52 +/- 9, 33 +/- 7, control 100 +/- 23; p less than 0.001). Comparison of the 1-minute and 5-minute groups to each other showed a significant flow decrease in the 5-minute group (p less than 0.007). This indicates that the observed decrease in flow was related both to the presence of a vessel occlusion and to the length of the occlusion.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Chemically induced vasospasm: the effect of ischemia, vessel occlusion, and adrenergic blockade. 396 10

Ischemic brain injury affects the content and metabolism of brain monomines. Our aim was to know the time course of changes in regional cerebral catecholamines during focal cerebral ischemia, and whether focal cerebral ischemia may affect the metabolism of catecholamines in distant area of the brain. Methods Fifty-five rats were subjected to occlusion of the middle cerebral artery (MCA) on the olfactory tract, under halothane anesthesia. Fourteen animals were sham-operated group. Animals were decapitated at 1/2, 1,2,3,6,12 and 24 hours post-occlusion (PO), respectively. The brains were removed, and the brain structures dissected out include bilateral corpus striatum, cerebral cortex (MCA territory) and cerebellar hemisphere. Catecholamines were extracted by alumina procedure, and determined by high-performance liquid chromatography with electrochemical detection. Results Dopamine (DA) contents, in ipsilateral corpus striatum and cerebral cortex to the ischemia, decreased at 1 hour PO, and reached, at 6 hours PO, to 40% of control value in corpus striatum and 30% in cerebral cortex, respectively. After 6 hours PO, DA remained low. Norepinephrine (NE) content in the ipsilateral corpus striatum gradually reduced and reached to 60% of control value at 24 hours PO. NE in the ipsilateral cerebral cortex decreased to 50% of control at 1 hour PO, and thereafter remained reduced. In the contralateral corpus striatum and cerebral cortex, either DA or NE showed no significant changes, except 1/2 hour PO. NE contents in bilateral cerebral cortex showed a transient increase at 1/2 hour PO. Cerebellar NE content, bilaterally, reduced slowly to 70% of control at 24 hours PO.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Changes in regional cerebral catecholamines following middle cerebral artery occlusion in the rat]. 407 79

The presence of monoacylglycerol lipase was established in extracts of acetone-dried powders from rat and bovine brains using thioester substrate analogs. At pH 7.4, the apparent Km and Vmax values for 1-S-decanoyl-1-mercapto-2,3-propanediol were 56 microM and 227 nmol/h/mg protein in bovine gray matter. The divalent metal ions Ca2+ and Mg2+ had no effect on enzymic activity, but Zn2+ at 500 microM produced a 50% inhibition of this enzyme. Free fatty acids also caused a marked inhibition of monoacylglycerol lipase activity. Norepinephrine and 5-hydroxytryptamine slightly stimulated the enzymic activity. Hypoxic-hypoxia and 30-s postdecapitation ischemia resulted in a considerable increase in monoacylglycerol lipase activity of rat brain. However, the increased activity of monoacylglycerol lipase returned to normal after 5 min of ischemia. The increased activity of monoacylglycerol lipase during hypoxic-hypoxia and short-time ischemia may be partially responsible for increased levels of free fatty acids during these processes.
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PMID:Monoacylglycerol lipase. Regulation and increased activity during hypoxia and ischemia. 610 May 9

The prevalence of severe dementia in the United States is about 1.3 million cases, of which at least 50 to 60% are of the Alzheimer type. Severe dementia of the Alzheimer type is found rarely in a clearly dominant pattern, although often one or more relatives are affected. Down's syndrome in adults is often associated with Alzheimer changes. The diagnosis is a clinicopathological one; there is a considerable error rate in the clinical diagnosis early in the course of the disease, especially in regard to dementia in depression. The differential diagnosis involves a great many disorders, including multi-infarct dementia, tumors, subdural hematomas, and others. Physiological aspects of Alzheimer's disease include a diffusely slow electroencephalogram, reduced cerebral blood flow, and particular patterns noted on positron emission tomographic scanning. The latter technique has also demonstrated that oxygen extraction is normal in Alzheimer's disease, thus excluding ischemia from possible pathogenetic factors. Morphological changes, that is, the presence of plaques and tangles, are widely distributed in neocortex, paleocortex, and many deep gray areas down through the pontine tegmentum, but largely exclude the basal ganglia, thalamus, and substantia nigra. Numerous plaques without neocortical tangles are found in many demented persons older than 75 years. A severe loss of large neocortical neurons is characteristic of the disease. The chemical nature of the paired helical filaments that make up the neurofibrillary tangle has not yet been ascertained. Neurons are markedly deficient in the basal forebrain nuclei, and this deficiency may account for the severe diminution of choline acetyltransferase and acetylcholine in the neocortex and paleocortex. Muscarinic cholinergic receptors are present in normal amounts. Norepinephrine is reduced in some cases, and somatostatin in most. Substance P is low in severe cases. The etiology of the disorder is unknown and the role of aluminum is disputed. Management of patients with Alzheimer's disease is difficult, and neuroleptics are to be used with great caution because of their side effects. Substrate therapy has not been effective; physostigmine improves memory but is not suitable for general use. Trophic factors, gangliosides, and aluminum chelation are being investigated for use in pharmacological intervention.
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PMID:Senile dementia of the Alzheimer type. 613 75

Norepinephrine (NE) depletion of the cerebral cortex after lesion of the ipsilateral locus ceruleus (LC) causes abnormalities of cerebral oxidative metabolism when the cortex is stimulated to increased energy demand (Harik, S. I., J. C. LaManna, A. I. Light, and M. Rosenthal (1979) Science 206: 69-71; LaManna, J. C., S. I. Harik, A. I. Light, and M. Rosenthal (1981) Brain Res. 204: 87-101). These abnormalities were exhibited as decreased mitochondrial reducing equivalent flow. One possible cause of this would be the decreased availability of oxidative metabolic substrates in the NE-depleted cortex. We therefore investigated the effect of unilateral LC lesion and the resultant depletion of ipsilateral endogenous NE on glycogen and other energy metabolites in the cerebral cortex of rats under three conditions: (1) at "rest," (2) when energy demand is inncreased markedly by seizures, and (3) during total cerebral ischemia. We report no differences in cerebral metabolites between NE-depleted and control hemispheres at "rest." In seizures and ischemia, however, the increase in the level of adenosine 3':5'-monophosphate (cyclic AMP) and the breakdown of glycogen were impaired considerably in the NE-depleted cortex. The data suggest that depletion of central NE impairs cerebral glycogenolysis in response to increased energy demands and ischemia. Such impairment may be mediated via a cyclic AMP-related mechanism.
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PMID:Norepinephrine regulation of cerebral glycogen utilization during seizures and ischemia. 627 95

The accumulation of endogenous catecholamines within the extracellular space of the ischemic myocardium has been studied in the isolated perfused (Langendorff) heart of the rat subjected to various periods of complete ischemia, with subsequent collection of the reperfusate. Catecholamines and deaminated metabolites were measured by radioenzymatic methods, or high pressure liquid chromatography. Ischemic periods of less than 10 minutes are not associated with an increased overflow of catecholamines or metabolites. Longer periods of ischemia are accompanied by the overflow of noradrenaline and its deaminated metabolite 3,4-dihydroxyphenylglycol. This overflow increases with lengthening of the preceding ischemic period (10 minutes: 2.5 +/- 0.6, 20 minutes: 209.8 +/- 17.2, 60 minutes: 1270.5 +/- 148.1 pmol noradrenaline/g heart). Noradrenaline concentration is highest during the first minute of reperfusion, suggesting that the noradrenaline detected during reperfusion is released into the extracellular space of the myocardium during ischemia and is subsequently eluted. Experiments with variation of extracellular calcium concentration and with neuronal uptake (uptake1) blocking agents suggest that different mechanisms of catecholamine release are acting during the course of ischemia. A calcium-independent carrier-mediated efflux of noradrenaline from the nerve terminals is of major importance, using the same carrier as is normally responsible for transporting noradrenaline from the synaptic clefts into the neuronal varicosities. Thus, various uptake1-blocking agents diminish the noradrenaline overflow following ischemic periods of between 10 and 40 minutes. The noradrenaline overflow following longer periods of ischemia is unaffected by uptake1-blocking agents, and additional noradrenaline release at this time is probably consequent upon dissolution of cell membranes. Overflow of adrenaline and dopamine occurs to a minor degree (less than 5% of the corresponding noradrenaline overflow), and only after ischemic periods of more than 15 minutes.
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PMID:Release of endogenous catecholamines in the ischemic myocardium of the rat. Part A: Locally mediated release. 648 89

The authors investigated the value of high-dose thiopental (TH) therapy after 16-min complete global brain ischemia (GBI) in three groups of pigtailed monkeys, using a neck cuff model of GBI with 96 h intensive care postischemia (PI). Control group (n18): Normotension was restored within 2 min PI; paralysis/controlled ventilation was maintained for 48 h PI with 50% N2O/O2. Thiopental loading group (n13): Control treatment plus TH-loading with 90 mg/kg iv given from 5 to 65 min PI (mean peak TH plasma level 130 micrograms/ml). Thiopental anesthesia group (n14): Control treatment plus TH anesthesia with 90 mg/kg iv given over 12 h PI (sustained TH plasma levels of 25-35 micrograms/ml and EEG burst suppression). Norepinephrine requirement for blood pressure control PI was greater in the TH groups than in the control group (P less than 0.05). Lidocaine was needed for control of arrhythmias in the TH loading group. There was no significant difference in mortality or neurologic outcome between the groups. At 96 h PI seven of 11 animals were awake in the control group, compared with seven of 12 and six of 12 in the two TH groups. Neurologic deficit scores (NDS) for the survivors at 96 h PI were 23 +/- 6% (mean +/- SD) (n10) in the control group, compared with 25 +/- 9% (n11) and 26 +/- 12% (n10) in the two TH groups (NDS 100% = brain death, 0% = normal). Seizures PI (in 1-2 of each group) were associated with worse neurologic deficits.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Thiopental treatment after global brain ischemia in pigtailed monkeys. 669 50

90 min of renal artery occlusion in previously unilaterally nephrectomized rats produce acute renal failure (ARF) (plasma creatinine at 48 h after ischemia: 636 +/- 44 vs. 133 +/- 9 mumol/l in controls). Between 1 and 48 h after releasing the occlusion, two populations of superficial nephrons could be observed, one with dilated tubules and elevated proximal tubular pressures (PTP: 39 +/- 1 vs. 12 +/- 1 mm Hg in controls) and the other with collapsed tubules and decreased PTP (9 +/- 1 mm Hg). Proximal tubular passage time (PPT) could not be determined with the Lissamine green technique. Seven methods of pretreatment were tested, 5 of which provided partial functional protection (DOCA/NaCl/NaCl, furosemide infusion, inosine bolus, mannitol bolus and the combination of the last two). Neither renal renin levels nor urinary NaCl excretion were consistently correlated with protection. Functionally protected rats consistently showed no PTP increase and normal PPT in the tubules at the kidney surface. However, plasma creatinine at 48 h differed markedly within the 5 protected groups, ranging from 168 +/- 18 to 398 +/- 35 mumol/l. Extensive medullary congestion was seen at 1-6 h after ischemia only in those rats with obstructed, high pressure nephrons at the kidney surface. To conclude: (1) Functional protection from ischemic ARF, both with and without an accompanying increase in solute excretion, was achieved by the abolition of tubular obstruction. (2) Despite similar degrees of restoration of superficial nephron function, the persisting impairment of whole kidney function differed markedly between the protected groups. (3) Impairment of deeper nephron function must therefore play a major role, perhaps through persisting obstruction in the long loops of Henle. (4) High pressure nephrons may compromise medullary venous outflow in the outer zone of the outer medulla.
Nephron 1982
PMID:Superficial nephron obstruction and medullary congestion after ischemic injury: effect of protective treatments. 675 72

It is concluded that the condition of 'acute renal failure' starts in the first minutes after restoration of the circulation, following the ischemic period. The aggregation of red blood cells in the renal medulla with the subsequent cessation of medullary blood flow represents an important factor causing both the reduced urinary concentrating ability and the depressed urinary potassium concentration. The persisting medullary ischemia leads to cellular swelling and eventually to cell necrosis, which in turn results in a mechanical obstruction of the tubular lumen in the region of the loops of Henle and the medullary collecting ducts. In contrast, the anuria which is evident weeks after the primary damage, seems to be caused by the release of vasoconstrictor principles, whose origin is unclear, but it seems not to be mediated via the renal nerves, since the same symptoms are found in transplanted kidneys. Therapeutic endeavors using heparin, saline expansion and mannitol to improve the rheological characteristics of the blood seems to be of limited value. Infusion of hyperoncotic albumin during the ischemic period, however, seems to be of some benefit, since glomerular filtration is better preserved. The addition of ATP and magnesium, glucose or adjustment of the acid base status with buffers has not been encouraging in the present models, in which glomerular filtration rate is reduced to only a few percent of control.
Nephron 1982
PMID:Hemodynamic alterations in ischaemic acute renal failure. 717 66

We investigated electrocardiographic changes occurring after hemodialysis in 20 male patients with chronic renal failure. Changes in the configuration of T wave, ST segment and R wave consistent with ischemia were found in 30, 45, and 75%, respectively. Contrary to prior speculation the R wave height did not vary with the volume changes of body fluid occurring in dialysis. It is concluded that ischemic-appearing changes of uncertain significance are common in the postdialysis population.
Nephron 1981
PMID:Electrocardiographic changes following dialysis. 726 8

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