Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

The most effective means to prepare the hepatic donor liver for harvest, preservation, and transplantation are not known. Studies have shown that in combination with an injury to the liver, fasting reduces hepatic function. This study randomized 20 market pigs, 20 to 45 kg, to an overnight fast (fed group) or a 42-hour fast (fasted group). Under general anesthetic perfusion of the portal vein and hepatic artery were controlled. Studies were performed at high flow (30 ml/min/kg portal flow and 10 ml/min/kg arterial flow) and after a 90-minute period of warm ischemia (no flow). Flow was restored at 25% of the original (low flow), then increased to 50% of the original (medium flow). After the ischemic insult, the fed group improved hepatic oxygen consumption at a faster rate than the fasted group (p less than 0.05 by ANOVA). In addition, significant differences were noted between the fed and fasted groups in the amount of insulin delivered by the portal venous system to the liver (p less than 0.001 by ANOVA). Hepatic oxygen consumption was related to insulin delivery (r2 = 0.46; p less than 0.001) for both groups. The data suggest that acute changes in the nutritional status of both the donor and the recipient may affect hepatic recovery from ischemia.
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PMID:Fasted state impedes recovery of porcine hepatic oxygen consumption after warm hepatic ischemia. 192 63

Insulin, an endogenously produced circulating peptide that enters the brain, has been shown to reduce ischemic brain and spinal cord damage in several animal models. Because of its potential clinical use in humans, the present study was undertaken to test the hypotheses that (a) survival and regional ischemic brain necrosis are improved by insulin; (b) insulin requires concomitant hypoglycemia to exert its neuroprotective effect; (c) insulin is still neuroprotective with delayed administration after an episode of postischemic hypotension; and (d) insulin is beneficial after normoglycemic, as well as hyperglycemic ischemia. Rats were subjected to 10.5 min two-vessel occlusion forebrain ischemia followed by 30 min of hypotension to increase the infarction rate. Insulin administered concomitantly with glucose significantly reduced the seizure rate, as well as cortical and striatal neuronal necrosis below that seen in untreated animals. Neuroprotection was seen whether insulin was given before or after a 30-min episode of postischemic hypotension. Insulin reduced pan-necrosis in addition to selective neuronal necrosis: The infarction rate was reduced in the cerebral cortex, thalamus, and substantia nigra pars reticulata. Normoglycemic ischemia produced only selective neuronal necrosis, but a beneficial effect on structural damage was also seen. The results indicate that insulin acts directly on the brain, independent of hypoglycemia, to reduce ischemic brain necrosis. Possible direct CNS mechanisms of action include an effect on central insulin receptors mediating inhibitory neuromodulation, an effect on central neurotransmitters, or a growth factor effect of insulin.
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PMID:Insulin attenuates ischemic brain damage independent of its hypoglycemic effect. 193 78

Thromboembolic events in the pediatric age group occur most commonly in neonates, and newborns of diabetic mothers are particularly at risk. We report a newborn with right renal vein and inferior vena cava thrombosis who apparently embolized across the foramen ovale antenatally with resultant right brachial artery occlusion. The baby was delivered by cesarean section from an insulin-dependent diabetic mother. At the time of birth, there was severe right arm ischemia with absent brachial and radial pulses. There was clinical evidence of distal embolization with a "trash" lesion of the distal right middle finger as well as a midforearm area of full-thickness skin loss. Ultrasound demonstrated a right renal vein thrombosis and a 95% occlusion of the inferior vena cava. Regional urokinase therapy was instituted through a lower extremity vein with a 5,000 U/kg bolus and then 5,000 U/kg/h continuous infusion. Twelve hours of infusion of urokinase led to clinical resolution of the right arm ischemia, with return of pulses. Follow-up ultrasound showed the right renal vein thrombosis and inferior vena cava clot to be completely resolved. The right middle finger and forearm lesions subsequently have healed primarily. We report this as a case of in utero arterial embolization with successful postnatal therapy using regional urokinase infusion.
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PMID:In utero arterial embolism from renal vein thrombosis with successful postnatal thrombolytic therapy. 194 70

Thirteen immature puppies (2 to 4 kg) underwent 1 hour of acute hypoxia (oxygen tension 25 to 30 mm Hg), followed by 45 minutes of normothermic global ischemia on total vented bypass with normal blood reperfusion. Ventricular function was assessed by inscribing Starling function curves and measuring stroke work indices before hypoxia and after reperfusion. Seven puppies (control) received normal saline infusion at 4 ml/kg/hr. Six other puppies received a 4 ml/kg/hr intravenous infusion of glutamate/aspartate, glucose-insulin-potassium, mercaptopropionyl glycine, carnitine, and catalase during hypoxia and reperfusion. In control hearts, acute hypoxia depleted myocardial glutamate and aspartate by 52% (p less than 0.05 versus prehypoxia) and 48% (p less than 0.05 versus prehypoxia) and caused severe hemodynamic deterioration (55% decrease of stroke work index) (p less than 0.05 versus prehypoxia); three of seven (43%) required premature institution of bypass. Postischemic left ventricular function recovered to only 40% of control levels (p less than 0.05 versus prehypoxia). In contrast, intravenous metabolic infusions maintained tissue glutamate (p less than 0.05 versus control group) and aspartate (p less than 0.05 versus control group) in treated hearts during hypoxia and allowed cardiac index to rise 20% (p less than 0.05 versus prehypoxia); all treated hearts tolerated 1 hour of hypoxia, and stroke work recovered 70% (p less than 0.05 versus control group) of stroke work index after subsequent ischemia. Impaired tolerance of immature hearts to acute hypoxia and subsequent ischemia is due to substrate depletion. This impairment can be reduced by intravenous metabolic support during hypoxia and reperfusion and leads to improved recovery of postischemic function.
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PMID:Studies of myocardial protection in the immature heart. IV. Improved tolerance of immature myocardium to hypoxia and ischemia by intravenous metabolic support. 149 25

We have developed an isolated perfused tumor model to study the metabolism of solid tumors by nuclear magnetic resonance spectroscopy. Morris hepatomas (7777) were implanted in the inguinal region of Buffalo rats, such that they developed an isolated blood supply. These tumors were perfused with a RBC perfusate, removed from the animal, and studied by 31P nuclear magnetic resonance spectroscopy. ATP levels, as determined from the spectra, were stable for as long as the tumors were maintained in the magnet (7 h) only if the perfusate contained inosine, adenosine, and insulin. The adenosine and inosine were also required for recovery from ischemia. Under these conditions, ischemia did not result in a change in tumor pH. The gamma nucleoside triphosphate resonance was significantly larger than the beta nucleoside triphosphate resonance in spectra of some of the perfused tumors, suggesting that ADP above about 300 nmol/g wet weight was not complexed in these tumors. The adenylate levels determined from extracts, O2 consumption, histology, and 31P nuclear magnetic resonance spectra of extracts of perfused tumors and tumors in situ were all similar, indicating the perfused tumor is a reasonable model of the tumor in vivo.
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PMID:An ex vivo model for the study of tumor metabolism by nuclear magnetic resonance: characterization of the phosphorus-31 spectrum of the isolated perfused Morris hepatoma 7777. 198 24

We examined the relationships between intracellular pH (pHi) and interstitial pH (pHe) in a rat model of focal ischemia. Interstitial pH was measured with pH-sensitive microelectrodes, and the average tissue pH was measured with the [14C]dimethadione method in rats subjected to occlusion of the right middle cerebral and common carotid arteries (MCA-CCAO). In normal cortex, pHe and pHi were 7.24 +/- 0.97 and 7.01 +/- 0.13 (means +/- SD, n = 6), respectively. In the ischemic cortex, pHe fell to 6.43 +/- 0.13, whereas pHi decreased only to 6.86 +/- 0.11 (n = 5) 1 h after MCA-CCAO. After 4 h of ischemia, the pHe was 6.61 +/- 0.09 and pHi was 6.62 +/- 0.20 (n = 4). Treatment with glucose before ischemia markedly lowered the pHe (5.88 +/- 0.17) but not pHi (6.83 +/- 0.03, n = 4) measured 1 h after ischemia. In the ischemic cortex of animals made hypoglycemic by pretreatment with insulin, neither pHe (7.25 +/- 0.06) nor pHi (6.99 +/- 0.13, n = 4) decreased. The demonstrated difference in pHi and pHe indicates that some cells remained sufficiently functional to maintain a plasma membrane gradient of protons within the evolving infarct. If the calculated pHi values accurately reflect the true pHi of cells within zones of severe focal ischemia, then cerebral infarction can proceed at pHi levels not greatly altered from normal.
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PMID:Dynamics of interstitial and intracellular pH in evolving brain infarct. 200 Oct 8

Insulin has recently been shown experimentally to modify ischemic brain damage when administered either before or after the episode of ischemia. In controlled studies in the rat, high doses of insulin (greater than or equal to 8 IU/kg) result in seizures and early death. The present study was undertaken to determine whether diazepam, a potent, centrally penetrating GABAmimetic, alone or in combination with insulin, could mitigate postischemic seizures or regional selective neuronal necrosis and infarction. Forebrain ischemia was induced in rats for 10 1/2 minutes by carotid clamping and hypotension. The animals were observed clinically until elective perfusion-fixation and quantitative pathologic examination at 1-week recovery. Diazepam, either alone or with insulin, reduced regional brain necrosis and reduced the seizure rate. Insulin alone also led to reduced regional necrosis. However, the combination of diazepam plus insulin yielded the greatest proportion of undamaged brains in the hippocampus, thalamus, and midbrain. In the neocortex, the diazepam-only group showed the greatest number of normal hemispheres. Hypothalamic infarction was eliminated by all three treatments. Seizures per se were associated with increased damage in the cerebral cortex, thalamus, and brainstem, irrespective of treatment group. The findings indicate that ischemic brain necrosis can be mitigated by diazepam and insulin treatment begun in the immediate postischemic period.
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PMID:Postischemic seizures and necrotizing ischemic brain damage: neuroprotective effect of postischemic diazepam and insulin. 200 13

Although hyperglycemia has been shown to consistently exacerbate ischemia brain injury following global or diffuse cerebral ischemia, the effect of hyperglycemia in unilateral focal cerebral ischemia remains controversial. Recent advances in thrombolytic therapy have enhanced the clinical significance of postischemic reperfusion. We studied the effect of plasma glucose on ischemic brain injury in a newly developed focal cerebral ischemia-reperfusion model. Rats allowed free access to food until ischemic insult developed intra- and postischemic hyperglycemia and cortical infarction. Rats fasted for 24 hours had blunted hyperglycemic responses. Infarct volumes were correspondingly smaller. The protective effect of fasting was partially abolished by glucose loading during ischemia to induce intra-ischemic hyperglycemia. Glucose loading immediately or 3 hours after focal cerebral ischemia did not significantly alter the protective effect of fasting. Insulin treatment in fed rats before ischemia also reduced hyperglycemic responses and infarct volume. Timing of insulin treatment was also critical in the reduction of ischemic injury. These findings indicate that plasma glucose during the period of ischemia is an important determinant of brain injury in focal cerebral ischemia-reperfusion and there is a therapeutic window for normalization of plasma glucose to be efficacious.
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PMID:Effect of plasma glucose on infarct size in focal cerebral ischemia-reperfusion. 174 69

Although it has been well established that hyperglycemia increases cerebral damage following transient cerebral ischemia, its effect on permanent focal ischemia is controversial. We hypothesized that other factors associated with hyperglycemia, such as plasma insulin, may alter the brain's response to hyperglycemia. The objective of this study was to determine if hyperglycemia changes infarction size following 8 hr of middle cerebral artery occlusion in the anesthetized cat and to examine if changes in plasma insulin levels alter hyperglycemia's effects. Infarct size in hyperglycemic cats with increased plasma insulin (38.3 +/- 8.4, mean +/- SE) or in hyperglycemic cats without increased plasma insulin (30.5 +/- 7.6%) was not significantly different from that of ischemic controls (33.8 +/- 2.8%). However, the variability in infarct size tended to be greater (P = 0.0647) among all hyperglycemic cats compared to control animals. The source of the variability is unknown, but this observation is dependent on the exact nature of the focal ischemic insult (i.e., degree of collateral blood supply) and that this effect may vary greatly from individual to individual within a population.
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PMID:Focal cerebral infarction in cats in the presence of hyperglycemia and increased insulin. 208 16

An isolation procedure for large scale isolation of swine islets is described. The results from 15 consecutive isolations are reported. The glands were excised from heart beating animals with no warm ischemia time. The pancreases were digested by a modification of the automated method for human islet isolation. It was possible to separate an average of 690,000 +/- 279,429 islets per pancreas corresponding to 10,360 +/- 4034 islets for gram of pancreas with a volume of 714 +/- 480 mm3. After purification the recovery was 255,000 +/- 32,407 islets corresponding to 4,000 +/- 567 islets per gram of pancreas. Purity of the final preparation was 80-95% islets. Insulin content resulted in an average of 146.8 +/- 78 U before purification and 71 +/- 53 after purification. After transplantation of an aliquot of the final preparation in diabetic nude mice normoglycemia occurred in six mice. 30 days after transplantation nephrectomy of the kidneys bearing the grafts produced a rapid return to the diabetic state in all cases.
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PMID:Swine islet isolation and transplantation. 208 78


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