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)

A rat model of ischemic tolerance is useful for studying the intrinsic cellular mechanism of resistance to cerebral ischemia. Many types of preconditioning in the brain have been reported to induce ischemic tolerance; however, evaluation of their neuroprotective effect is primarily limited to differences in counts of surviving cells. A lesser but still large number of neurons die in the neocortex after global ischemia following ischemic tolerance. This study addressed the issue of whether any type of preconditioning could elicit a tolerance that limited the size of cerebral infarct against temporary focal ischemia. Cortical spreading depression was induced for a prolonged period and, after various intervals, the stress of temporary focal ischemia was evaluated in rats. Ten groups of male rats (n=8 each) were studied. In the first group, temporary focal ischemia was induced by occlusion of three vessels (bilateral carotid arteries and left middle cerebral artery, MCA) for 2 h (control). In the second to seventh groups, cortical spreading depression was generated by continuously infusing 4 M potassium chloride (KCl)(1.0 microliter l/h for 2 days) into the left neocortex via an osmotic pump. On days 6, 9, 12, 15, 21 and 24 (day 0=day of pump removal), temporary focal ischemia was induced in one of these groups. In the other three groups, saline was infused instead of KCl, and on day 6, 12 or 21, temporary focal ischemia was induced. All rats were sacrificed 2 days after the ischemia and the infarct volume was analyzed using TTC staining of brain slices. In a separate group of animals, regional cerebral blood flow (rCBF) at the periinfarct area (penumbra) was monitored before and during the ischemia with a laser-Doppler flowmetry (LDF) system on day 12 following saline (n=5) or KCl infusion (n=5) for 48 h. To obtain the absolute rCBF value before ischemia following saline (n=5) or KCl infusion (n=5), hydrogen clearance was examined in the same cortex under the same anesthesia. The cerebral infarct volume was gradually reduced as the interval between the induction of the spreading depression and the induction of temporary focal ischemia was extended. There was a significant reduction in infarct size between the control and the groups in which ischemia was induced on day 12 or 15. There was no significant difference in the preischemic or intraischemic rCBF between the saline and KCl-infused groups. The preconditioning method was demonstrated to limit the size of cerebral infarct after temporary focal cerebral ischemia; tolerance for cerebral infarct developed after an extended interval following a long period of spreading depression.
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PMID:Infarct tolerance against temporary focal ischemia following spreading depression in rat brain. 951 33

Nerve growth factor, brain-derived neurotrophic factor, and other neurotrophic factors have been reported to have neuroprotective effects against global ischemia. To investigate whether the homodimer of platelet-derived growth factor B-chain (PDGF-BB) can protect neurons against focal temporary ischemia, PDGF-BB was administered to the rat brain for a prolonged period prior to, during, and after ischemia, since PDGF-BB protected rat neurons from global ischemia in our previous study. A total of 82 male Sprague-Dawley rats were used. Recombinant PDGF-BB, or saline was administered into the left neocortex via an implanted osmotic pump for 3 days (1.2 microg in total), 7 days (2 microgram or 4 microgram in total), or 14 days (4 microgram in total) pre-ischemia and 2 days post-ischemia. In an additional group, PDGF-BB (4 microgram in total) was administered for 14 days by osmotic pump and focal ischemia was induced after an additional 7-day interval following removal of the pump. Focal temporary ischemia was induced in the left MCA territory by bilateral CCA and MCA occlusion for 2 h. All rats were sacrificed 2 days after ischemia and the volume of cerebral infarct was analyzed using TTC staining. In a separate set of animals, regional cerebral blood flow (rCBF) was monitored by the hydrogen clearance method and laser Doppler flowmetry (LDF) of the neocortex after 14 days of intracerebral administration of PDGF-BB or saline. In the group receiving PDGF-BB (4 microgram in total) for 7 or 14 days pre-ischemia, there was a significant reduction of neocortical infarction compared to that in the control or saline-infused group. The size of cerebral infarct was smallest in the group that received PDGF-BB for 14 days, when ischemia was induced 7 days after removal of the pump. Regarding rCBF measurement, there were no significant differences in groups receiving PDGF-BB or saline infusion for 14 days. The potent neuroprotective effect of PDGF-BB on global ischemia was also demonstrated in the focal ischemia model. However, prolonged intracerebral infusion for 7 to 14 days was necessary to achieve a significant reduction of infarct volume. Neuroprotection was not due to increased collateral flow during ischemia.
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PMID:Induction of infarct tolerance by platelet-derived growth factor against reversible focal ischemia. 951 39

In a previous report, we have demonstrated that simultaneous inhibition of nucleoside transport and adenosine deaminase accumulates endogenous adenosine and protects the myocardium against stunning. The differential cardioprotective effects of erythro-9(2-hydroxy-3-nonyl)-adenine (EHNA), a potent inhibitor of adenosine deamination but not transport, and p-nitrobenzylthioinosine (NBMPR), a selective blocker of adenosine and inosine transport, are not known. Thirty-seven anaesthetized adult dogs were instrumented to monitor left ventricular performance using sonomicrometery. Dogs were randomly assigned into four groups. The control group (n = 8) received only the vehicle solution. Treated groups received saline containing 100 microM EHNA (EHNA-group, n = 7), 25 microM NBMPR (NBMPR-group, n = 7), or a combination of 100 microM EHNA and 25 microM NBMPR (EHNA/NBMPR-group, n = 10). Hearts were subjected to 30 min of normothermic global ischaemia and 60 min of reperfusion while on bypass. Adenine nucleotides, nucleosides, oxypurines and NAD+ were determined in extracts of transmural myocardial biopsies using HPLC. TTC staining revealed the absence of necrosis in this model. Drug administration did not affect myocardial ATP metabolism and cardiac function in the normal myocardium. Ischemia caused about 50% ATP depletion and accumulation of nucleosides. The ratio between adenosine/inosine at the end of ischemia was 1:10, 1:1, 1:1 and 10:1 in the control, EHNA-, NBMPR- and EHNA/NBMPR-group, respectively. Upon reperfusion, both nucleosides washed out from the myocardium in the control and EHNA-group while retained in the myocardium in the NBMPR and EHNA/NBMPR groups. Ventricular dysfunction 'stunning' persisted in the control group (52%) and in the EHNA-treated group (32%) after 30 min of reperfusion. Significant improvement of function was observed in the EHNA group only after 60 min of reperfusion. LV function recovered in the NBMPR- and EHNA/NBMPR-treated groups during reperfusion. ATP recovery occurred only when animals were pretreated with the combination of EHNA/NBMPR and remained depressed in the control group and EHNA and NBMPR-treated groups. At post mortem, TTC staining revealed the absence of myocardial necrosis. Superior myocardial protection was observed with inhibition of nucleoside transport by NBMPR alone or in combination with inhibition of adenosine deaminase by EHNA. Selective blockade of nucleoside transport by NBMPR is more cardioprotective than inhibition of adenosine deaminase alone in attenuating myocardial stunning. It is not known why EHNA partially inhibit adenosine deaminase, in vivo.
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PMID:Differential cardioprotection with selective inhibitors of adenosine metabolism and transport: role of purine release in ischemic and reperfusion injury. 954 45

Objective of this study was the characterization of traumatic brain injury induced by a "Controlled Cortical Impact" with magnetic resonance imaging techniques. The impact was applied to the intact dura of the left hemisphere in Sprague-Dawley rats. The pneumatic impactor was accelerated to a velocity of 7 m/s contusing the left temporo-parietal hemisphere to a depth of 2 mm. Posttraumatic hemispheric swelling and water content were determined gravimetrically, Evans Blue extravasation photometrically, and volume of ischemia by TTC-staining and planimetry. Magnetic resonance imaging was performed by a Bruker biospec 24/40, 90 min, 24 and 72 h post trauma using a T2w RARE sequence, a T1w sequence, before and after application of contrast agent, and a set of diffusion weighted images for calculation of ADC-maps. Data analysis was performed using a cluster algorithm enabling to interpret corresponding image pairs simultaneously. T2w imaging indicates the maximum edema about 24 h post trauma. Blood-brain barrier damage, detected by T1w imaging, is more predominant in the early posttraumatic phase. The cluster algorithm detects different edema components: from the necrotic core to the perifocal vasogenic rim. MRI in combination with the cluster algorithm will hopefully be a valuable tool in testing neuroprotective agents.
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PMID:Magnetic resonance imaging studies with cluster algorithm for characterization of brain edema after controlled cortical impact injury (CCII). 977 14

A number of models of focal ischemia have been created to mimic acute middle cerebral artery (MCA) occlusion. In the present series of experiments, we report our observations on the thrombin model of MCA occlusion and the neuroprotective effects of intraarterial thrombolysis with two doses of urokinase (2500 and 5000 units/kg). In all experiments male Wistar rats were used and the animals were allowed to recover for 48 h before assessment of neurobehavioral performance on a four-point scale. The extent of cerebral hemispheric damage was calculated as the percentage of brain infarction using TTC staining. Occlusion of the MCA was effected by the introduction of an autologous blood clot into the internal carotid artery (ICA) approximately 2 mm from the origin of the MCA. This clot was formed by the drawing of 10 microl of blood into a bovine thrombin (20 microg per animal) containing intraarterial catheter, which was inserted into the right ECA. After standing for 15 min to allow clot formation, the catheter was advanced gently through the ICA to the site of injection. MCA occlusion produced a consistent large infarction in all animals. Urokinase infusion (i.a. ) was started 2 h after arterial occlusion in the initial series. In animals treated with low dose urokinase infusion there was mild protection. Animals treated with high dose urokinase infusion showed a highly significant improvement in the motor recovery and a decrease in the extent of infarction compared to control animals. In the final group, the infusion of urokinase was delayed for 3 h. While producing protection in some animals, it also produced intracerebral hemorrhage in two of eight animals. Thus delay of infusion to 180 min increased the risk of hemorrhage. This model may in the future be used to test the protective effects of combination therapy with thrombolysis and neuroprotective medications.
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PMID:Intraarterial urokinase produces significant attenuation of infarction volume in an embolic focal ischemia model. 987 71

The linear regression analysis of infarct size (IS) v ischemic myocardial blood flow (MBF) does not account for the heterogeneity of MBF and infarcted tissue; moreover, it cannot assess a blood flow threshold for infarction (MBFT) accurately, as with ischemic preconditioning (IP) the close relationship between ischemic MBF and IS otherwise observed is lost. Finally, the impact of resting blood flow on myocardial infarction cannot be considered in such analysis. Therefore, in a retrospective data analysis of 32 enflurane-anaesthetized swine undergoing 90 min severe ischemia and 120 min reperfusion without (CON, n = 12) or with IP induced by either 3 (IP3, n = 8) or 10 min ischemia (IP10, n = 12) and 15 min reperfusion, a MBFT was assessed by logistic regression (LR) in individual tissue pieces. MBFT was arbitrarily defined as that ischemic MBF (microspheres) at which infarct probability was 0.2, derived from the ratio of infarcted (n = 141, TTC) to all tissue samples (n = 684). The duration of the preconditioning ischemia and MBF both at rest and during the sustained ischemia were significant predictors of infarct probability. Ischemic MBFT at an infarct probability of 0.2, was 0.089 +/- 0.023 ml/min/g in CON. MBFT was decreased to 0.051 +/- 0.03 ml/min/g with IP3 (P < 0.05 v CON) and further to 0.004 +/- 0.037 ml/min/g with IP10 (P < 0.05 v CON, IP3). Corresponding to the leftward shift of MBFT, the relationships between infarct probability and MBF were shifted in parallel by IP with no change in their slopes.
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PMID:Impact of resting and ischemic blood flow on infarct probability in ischemic preconditioning--a new approach to infarct size-blood flow data by logistic regression. 999 May 42

The neuroprotective effect of mexiletine (Mex), a potent Na(+) channel blocker which decreases neuronal energy demands and prevents energy depletion during ischemia, was evaluated in Wistar rats subjected to permanent middle cerebral artery (MCA) occlusion. Postmortem infarct volumes were determined by quantitative image analysis of triphenyltetrazolium (TTC)-stained brain sections. Pretreatment with Mex resulted in a significant infarct volume reduction when administered intraperitoneally, either at the dosage of 50 or 60 mg/kg, 1 hr before MCA occlusion (P < 0.05). Delayed treatment with Mex (50 mg/kg) also had neuroprotective effects when given at 0.5 hr (< 0.05), but not 2-4 hr, after MCA occlusion. Intraarterial administration of MgSO(4) (90 mg/kg), in combination with Mex at 60 mg/kg, showed no additive neuroprotective effect, although each agent independently reduced the MCA occlusion-induced infarction volume (P < 0.05). Our results indicate that a single, acute administration of Mex is neuroprotective against permanent focal cerebral ischemia, but perhaps chronic administration is needed to establish a more effective therapeutic window beyond 0.5 hr. Moreover, the present in vivo data do not favor a combined use of Mg(2+) with Mex for limiting ischemic injury in the brain, since these agents caused cardiopulmonary suppression, which may have led to the loss of the neuroprotective effect of each agent independently.
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PMID:Mexiletine and magnesium independently, but not combined, protect against permanent focal cerebral ischemia in Wistar rats. 1051 18

In this study, the effects of ursodeoxycholic acid (UDCA) on ischemia/reperfusion injury were investigated on isolated heart perfusion model. Hearts were perfused with oxygenated Krebs-Henseleit solution (pH 7.4, 37 degrees C) on a Langendorff apparatus. After equilibration, isolated hearts were treated with UDCA 20 to 160 microM or vehicle (0.04% DMSO) for 10 min before the onset of ischemia. After global ischemia (30 min), ischemic hearts were reperfused and allowed to recover for 30 min. The physiological (i.e. heart rate, left ventricular developed pressure, coronary flow, double product and time to contracture formation) and biochemical (lactate dehydrogenase; LDH) parameters were evaluated. In vehicle-treated group, time to contracture formation was 21.4 min during ischemia, LVDP was 18.5 mmHg at the endpoint of reperfusion and LDH activity in total reperfusion effluent was 54.0 U/L. Cardioprotective effects of UDCA against ischemia/reperfusion consisted of a reduced TTC (EC25=97.3 microM), reduced LDH release and enhanced recovery of cardiac contractile function during reperfusion. Especially, the treatments of UDCA 80 and 160 microM significantly increased LVDP and reduced LDH release. Our findings suggest that UDCA ameliorates ischemia/reperfusion-induced myocardial damage.
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PMID:Effect of ursodeoxycholic acid on ischemia/reperfusion injury in isolated rat heart. 1054 75

Neuronal expression of brain-derived neurotrophic factor (BDNF) has been implicated in the mechanism of infarct tolerance (resistance to stroke) (H. Yanamoto et al., Infarct tolerance accompanied enhanced BDNF-like immunoreactivity in neuronal nuclei, submitted to Brain Res.), a process that takes more than 7 days following a preconditioning of repetitive cortical spreading depression (CSD). To investigate whether an elevated level of BDNF protein in the brain solely protects neurons against temporary focal ischemia, recombinant (r)BDNF was infused into the rat neocortex. Recombinant BDNF (or vehicle: saline) was administered into the left neocortex via an implanted osmotic minipump for 2.5, 7, 10 or 14 days pre-ischemia, during ischemia and for 2 days post-ischemia (8 microgram in total) in male Sprague-Dawley rats (n=6 each). Temporary focal ischemia was induced in the left middle cerebral artery (MCA) territory by three-vessel occlusion of bilateral common carotid arteries (CCAs) and MCA for 2 h, and the cerebral infarct volume was analyzed 2 days after ischemia using TTC staining. Regional cerebral blood flow (rCBF) of the left neocortex was monitored after 14 days of intracerebral administration of BDNF or vehicle (n=10 each). The distribution of BDNF following different periods of rBDNF or vehicle-infusion was analyzed using immunohistochemical techniques (n=5 each). In the groups treated with 8 microgram of rhBDNF for 7, 10, or 14 days pre-ischemia, there were significant reductions of neocortical infarct volume compared to in the control or vehicle-treated groups (p<0.05). In the rCBF study, there was no significant change after the infusion of 8 microgram rhBDNF for 14 days. In the histological study, a wide distribution of BDNF-like immunoreactivity in the neuronal nuclei in the ipsilateral neocortex was demonstrated after the infusion of 8 microgram rhBDNF for 14 days. The BDNF-like immunoreactivity in the neuronal nuclei was enhanced at the time that the resistance to stroke was achieved by direct intra-cerebral infusion of exogenous rBDNF. Elucidating the function of the BDNF-like protein located in the neuronal nuclei should reveal a new strategy for neuroprotection against ischemic brain attack in humans.
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PMID:Infarct tolerance induced by intra-cerebral infusion of recombinant brain-derived neurotrophic factor. 1071 70

The present work illustrates the critical subcellular changes in the rat heart after 10-30 min of left coronary artery (LCA) occlusion and 120 min of reperfusion with a combination of several staining techniques. Triphenyltetrazolium chloride (TTC) to detect non-injured myocytes, horseradish peroxidase (HRP) and terminal deoxynucleotide nick-end labeling (TUNEL) to detect necrotic and apoptotic cells were employed and electron microscopy (EM) was used to validate these changes. After 20 min of LCA occlusion, myocytes began to undergo necrosis whilst after 10 min occlusion, no myocyte underwent irreversible cell injury in the risk area. After 30 min of LCA occlusion and 120 min reperfusion, 36.3, 26.6 and 25% cells were normal, necrotic, and reversibly injured, respectively; the remaining 12.8% cells were apoptotic. Necrotic cells were strongly positive with HRP and negative for TTC and TUNEL. TUNEL-positive or apoptotic cells were slightly HRP-positive, indicating altered cell membrane permeability. Reversibly-injured myocytes were TTC-, HRP- and TUNEL-negative. These changes were more accurately defined in the 100- microm thick sections than in the traditional slices. It is concluded that: (1) TTC-staining of 100- microm thick sections is far superior and accurate for the detection of ischemic changes with shorter period of ischemia (10 min); (2) the combination of TTC-staining, HRP reaction and TUNEL method is excellent for demarcation of early ischemic changes; (3) TTC-negativity in ischemia less than 20 min does not indicate necrosis but only represents reversible changes; (4) the apoptosis is absent in early ischemia of 20 min with or without reperfusion at a time when sufficient ATP is present, and appears only after 30 min of coronary ligation and reperfusion; and (5) the apoptotic cells lose membrane integrity accompanied by decreased glycocalyx thickness and cell swelling as opposed to commonly known characteristics of apoptotic cells.
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PMID:Pathologic assessment of myocardial cell necrosis and apoptosis after ischemia and reperfusion with molecular and morphological markers. 1072 98

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