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:C0917798 (cerebral ischemia)
17,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Anesthetic agent, arterial pCO2 level, and opioid peptides have all been implicated in the pathophysiology of experimental stroke models. The effects of halothane, alpha-chloralose, and differing concentrations of arterial pCO2 on injury volume and CSF beta-endorphin levels were studied in a feline model of experimental focal cerebral ischemia. The type of anesthetic agent used had no effect on injury volume following 6 h of focal cerebral ischemia. Over a 6-h period, beta-endorphin levels significantly increased from 10.1 +/- 5.0 fmol/mL at zero time to 14.4 +/- 7.2 fmol/mL at 6 h under halothane anesthesia (p < 0.05), whereas they did not significantly change (10.1 +/- 6.7 to 7.8 +/- 4.7 fmol/mL) under alpha-chloralose anesthesia. In contrast, hypercapnia had no effect on beta-endorphin levels, but significantly increased injury volume from 30.6 +/- 5.7% of the ipsilateral hemisphere under normocapnic conditions to 37.1 +/- 5.9% under hypercapnic conditions (p < 0.05). These results suggest that hypercapnia increases injury volume in a feline model of focal cerebral ischemia, and pCO2 should be controlled in experimental focal cerebral ischemia models.
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PMID:Effects of halothane, alpha-chloralose, and pCO2 on injury volume and CSF beta-endorphin levels in focal cerebral ischemia. 927 Oct 3

1. Kynurenic acid (KYNA) is a kynurenine metabolite and a broad spectrum excitatory amino acid antagonist that has been shown to be neuroprotective in models of cerebral ischemia, when administered exogenously. However, the actual concentration required in the CNS to evoke significant neuroprotection has never been assessed. 2. The purpose of this study was to address this question in the gerbil model of forebrain ischemia. KYNA (400-1600 mg/kg) or vehicle were administered i.p. 15 min before 5 min bilateral carotid occlusion. 3. Seven days after reperfusion, ischemia-induced hippocampal nerve cell loss (95% in vehicle-treated) was significantly lower in KYNA-treated gerbils (65% and 52% at 1000 and 1200 mg/Kg, respectively, P < 0.01). Treatment with 1000 mg/kg produced brain KYNA concentrations that were dramatically elevated (135.9 and 42.3 microM in CSF and whole brain, vs 0.032 and 0.16 microM in controls, at 15 min after ischemia), as measured in a separate group of transcardially-perfused gerbils. Cerebral KYNA concentrations tended to return to basal values 2 hours after reperfusion. 4. These results indicate that KYNA has a marked neuroprotective effect in a model of forebrain ischemia. This activity is associated with KYNA concentrations in the brain and CSF that are compatible with the in vitro affinity of the compound for ionotropic glutamate receptors.
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PMID:Brain concentrations of kynurenic acid after a systemic neuroprotective dose in the gerbil model of global ischemia. 1039 Jul 31

This study determined extracellular concentrations of gamma-aminobutyric acid ([GABA](ecf)) in striatum of non-hibernating and hibernating arctic ground squirrels to test the hypothesis that an increase in [GABA](ecf) was associated with profound CNS depression during hibernation. Quantitative microdialysis procedures were employed to circumvent the effects of low temperature on the relative recovery of the analyte across the dialysis membrane and yielded for the first time quantitative in vivo estimates of [GABA](ecf) in any brain region or any species. Laboratory housed, wild caught Arctic ground squirrels (Spermophilus parryii) were implanted intraperitoneally with radio transmitters that enabled the telemetric monitoring of activity and core body temperature (T(b)) and bilaterally implanted with cranial guide tubes that enabled the implantation of microdialysis probes into the striatum. Striatal [GABA](ecf) was determined in unrestrained, non-hibernating ground squirrels (T(b) range 34.7-38.9 degrees C) and hibernating ground squirrels (T(b) range 2.9-3.9 degrees C) using extrapolation to zero flow and very slow flow microdialysis techniques. The results show that [GABA](ecf) in non-hibernating squirrels was 73 nM and this level was decreased by approximately 50% during hibernation thereby suggesting that an increase in [GABA](ecf) does not play a major role in CNS depression during hibernation. The reduction of [GABA](ecf) parallels a decrease in plasma and CSF [glucose] and may be related to a decrease in GABA synthesis or reduced voltage dependent release. This paper demonstrates that measurement of extracellular concentrations of neurotransmitters in animals with vastly different body temperatures is possible using microdialysis techniques of extrapolation to zero flow or very slow flow rates that enable 100% recovery. Such quantitative techniques may prove valuable in the study of the neurochemistry of the cerebral mechanisms of hibernation and tolerance to cerebral ischemia exhibited by hibernating animals.
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PMID:Determination of striatal extracellular gamma-aminobutyric acid in non-hibernating and hibernating arctic ground squirrels using quantitative microdialysis. 1048 93

The role of oxygen free radical generation during reversible focal cerebral ischemia and its relationship to nitric oxide mediated mechanisms were examined. In this study, a left frontal cortex microdialysis probe was placed into the previously defined ischemic penumbra region and perfused with a salicylate/CSF solution in the presence or absence of the nitric oxide synthase (NOS) inhibitor L-NAME. Rats were then subjected to transient left hemisphere focal cerebral ischemia. Dialysate was collected at baseline and during the ischemic/reperfusion phase, and the hydroxylation products of salicylate were measured by HPLC with electrochemical detection. A significant elevation of free radical adduct formation was observed in the penumbra region during ischemia/reperfusion. This elevation was significantly attenuated by L-NAME during the reperfusion phase. Elevation of free radical adduct formation within the penumbra region during cerebral ischemia/reperfusion may be mediated in part by NOS-dependent mechanisms.
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PMID:Attenuation of free radical generation during reversible focal cerebral ischemia with the nitric oxide inhibitor, L-NAME (L-N(G)-nitro-L-arginine methyl ester). 1079 96

Delivery of diagnostic agents to the central nervous system (CNS) poses several challenges as a result of the special features of CNS blood vessels and tissue fluids. Diffusion barriers exist between blood and neural tissue, in the endothelium of parenchymal vessels (blood-brain barrier, BBB), and in the epithelia of the choroid plexuses and arachnoid membrane (blood-CSF barriers), which severely restrict penetration of several diagnostic imaging agents. The anatomy of large vessels can be imaged using bolus injection of X-ray contrast agents to identify sites of malformation or occlusion, and blood flow measured using MRI and CT, while new techniques permit analysis of capillary perfusion and blood volume. Absolute quantities can be derived, although relative measures in different CNS regions may be as useful in diagnosis. Local blood flow, blood volume, and their ratio (mean transit time) can be measured with high speed tomographic imaging using MRI and CT. Intravascular contrast agents for MRI are based on high magnetic susceptibility agents such as gadolinium, dysprosium and iron. Steady-state imaging using agents that cross the BBB including (123)I- and (99m)Tc-labelled lipophilic agents with SPECT, gives a 'snapshot' of perfusion at the time of injection. Cerebral perfusion can also be measured with PET, using H(2)(15)O, (11)C- or (15)O-butanol, and (18)F-fluoromethane, and cerebral blood volume measured with C(15)O. Recent advances in MRI permit the non-invasive 'labelling' of endogenous water protons in flowing blood, with subsequent detection as a measure of blood flow. Imaging the BBB most commonly involves detecting disruptions of the barrier, allowing contrast agents to leak out of the vascular system. Gd-DTPA is useful in imaging leaky vessels as in some cerebral tumors, while the shortening of T(1) by MR contrast agents can be used to detect more subtle changes in BBB permeability to water as in cerebral ischemia. Techniques for imaging the dynamic activity of the brain parenchyma mainly involve PET, using a variety of radiopharmaceuticals to image glucose transport and metabolism, neurotransmitter binding and uptake, protein synthesis and DNA dynamics. PET methods permit detailed analysis of regional function by comparing resting and task-related images, important in improving understanding of both normal and pathological brain function.
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PMID:Delivery of imaging agents into brain. 1083 39

Previous studies in piglets show that either hypoxia, ischemia-reperfusion (I+R) or combined hypoxia-ischemia-reperfusion (H+I+R) attenuated N-methyl-D-aspartate (NMDA)-induced pial artery dilation. This study was designed to determine the contribution of the newly described opioid nociceptin orphanin FQ (NOC/oFQ) to hypoxic-ischemic impairment of NMDA induced cerebral vasodilation in piglets equipped with a closed cranial window. Global cerebral ischemia was produced via elevated intracranial pressure. Hypoxia decreased P(O(2)) to 35+/-3 mmHg with unchanged P(CO(2)). I+R elevated CSF NOC/oFQ from 67+/-4 to 266+/-29 pg/ml ( approximately 10(-10) M) while H+I+R elevated CSF NOC/oFQ to 483+/-67 pg/ml within 1 h of reperfusion. Such elevated NOC/oFQ levels returned to control within 4 h in I+R animals and within 12 h in H+I+R animals. Topical NOC/oFQ (10(-10) M) had no effect on pial artery diameter by itself but attenuated NMDA (10(-8), 10(-6) M) induced pial dilation (control, 9+/-1 and 16+/-1; coadministered NOC/oFQ, 5+/-1 and 10+/-1%). NMDA induced pial artery dilation was attenuated by I+R or H+I+R; but such dilation was partially restored by pretreatment with the putative NOC/oFQ antagonist [F/G] NOC/oFQ (1-13) NH(2) (10(-6) M) (control, 9+/-1 and 16+/-1; I+R, 3+/-1 and 5+/-1; I+R+NOC/oFQ antagonist, 6+/-1 and 11+/-1%) Similar results were obtained for glutamate. These data suggest that NOC/oFQ release contributes to impaired NMDA and glutamate-induced cerebrovasodilation following I+R or H+I+R.
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PMID:NOC/oFQ contributes to hypoxic-ischemic impairment of N-methyl-D-aspartate-induced cerebral vasodilation. 1084 87

This study was designed to determine the role of altered cAMP and K(+) channel-dependent mechanisms in impaired pial artery dilation to the newly described opioid, nociceptin/orphanin FQ (NOC/oFQ) following hypoxia/ischemia in newborn pigs equipped with a closed cranial window. Recent studies have observed that NOC/oFQ elicits pial dilation via release of cAMP, which, in turn, activates the calcium sensitive (K(ca)) and the ATP-dependent K(+) (K(ATP)) channel. Global cerebral ischemia (20 min) was induced via elevation of intracranial pressure, while hypoxia (10 min) decreased pO(2) to 35+/-3 mm Hg with unchanged pCO(2). Topical NOC/oFQ (10(-8), 10(-6) M) induced vasodilation was attenuated by ischemia/reperfusion (I+R) and reversed to vasoconstriction by hypoxia/ischemia/reperfusion (H+I+R) at 1 h of reperfusion (control, 9+/-1 and 16+/-1%; I+R, 3+/-1 and 6+/-1%; H+I+R, -7+/-1 and -12+/-1%). Such altered dilation returned to control values within 4 h in I+R animals and within 12 h in H+I+R animals. NOC/oFQ dilation was associated with elevated CSF cAMP in control animals but such biochemical changes were attenuated in I+R animals and reversed to decreases in cAMP concentration in H+I+R animals (control, 1037+/-58 and 1919+/-209 fmol/ml; I+R, 1068+/-33 and 1289+/-30 fmol/ml; H+I+R, 976+/-36 and 772+/-27 fmol/ml for absence and presence of NOC/oFQ 10(-6) M, respectively). Topical 8-Bromo cAMP (10(-8), 10(-6) M) pial dilation was unchanged by I+R but blunted by H+I+R (control, 10+/-1 and 20+/-1%; I+R, 11+/-1 and 20+/-2%; H+I+R, 0+/-1 and 0+/-2%). Pituitary adenylate cyclase activating polypeptide and cromakalim, adenylate cyclase and K(ATP) channel activators, respectively, elicited dilation that was blunted by both I+R and H+I+R while NS1619, a K(ca) channel activator, elicited dilation that was unchanged by I+R but blunted by H+I+R. These data indicate that impaired NOC/oFQ dilation following I+R results form altered adenylate cyclase and K(ATP) channel-dependent mechanisms. These data further indicate that impaired NOC/oFQ dilation following H+I+R results not only from altered adenylate cyclase and K(ATP) channel but also from altered cAMP and K(ca) channel-dependent mechanisms.
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PMID:Role of cAMP and K(+) channel-dependent mechanisms in piglet hypoxic/ischemic impaired nociceptin/orphanin FQ-induced cerebrovasodilation. 1108 86

Following a complete disruption of blood flow to the brain, cerebral ischemia, a specific neuronal population, namely the CA1 pyramidal neurons in the hippocampus, will die a delayed type of cell death. This is often referred to as "delayed neuronal death" (DND). It is not known why it takes around 48 hours for these cells to die. It is very often speculated that events, intrinsic to the CA1 neurons, regulate their demise, whereas it is less often considered that extrinsic mechanisms also could play an important role for the development of DND. We discovered that in addition to the CA1 pyramidal neurons, cells in the choroid plexus were TUNEL (terminaldeoxynucleotidyl-mediated biotin-dUTP nick-end labeling)-positive following transient forebrain global ischemia. The time course and the number of TUNEL-positive cells were determined. A dramatic increase in the number of TUNEL-positive cells in the choroid plexus was seen at 18, 24, and at 36 hours of recovery, but not at 48 hours of recovery following 15 minutes of transient forebrain global ischemia. No TUNEL-positive cells were seen at 24 hours of recovery in the CA1 region. The cell death in the choroid plexus thus preceded the occurrence of cell death in the CA1 region. Massive cell death in the choroid plexus will inevitably lead to a leaky blood-CSF barrier, which in turn will allow substances to enter the ventricular system and from there reach the brain parenchyma. We, therefore, conclude that choroid plexus cell death may adversely affect the outcome of CA1 pyramidal neurons following transient forebrain global ischemia, through, e.g., a disruption of the blood-cerebro spinal fluid barrier. Alternatively, the choroid plexus may produce factors, which can affect the outcome of neurons.
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PMID:Cell death in the choroid plexus following transient forebrain global ischemia in the rat. 1113 55

Ketamine (2-o-chlorophenenyl-2-methylaminocyclohexanone hydrochloride) is a dissociative general anaesthetic with neuroprotective properties. Since ketamine is optically active, we compared the neuroprotective efficacy of the (+)- or (-)-enantiomers in global cerebral ischaemia. Rat corticostriatal slices superfused with, or incubated in, artificial CSF at 34 degrees C were subjected to a brief ischaemic insult. Dopamine efflux was measured using fast cyclic voltammetry. Tissue metabolism was determined with 2,3,5-triphenyltetrazolium chloride staining, a marker of mitochondrial enzyme activity. In control slices, ischaemia caused rapid striatal dopamine release (to 122 microM over 18 s) after an initial delay of 149s. Racemic ketamine (100 micromol/l) significantly delayed (by 24%, P<0.05), slowed (by 63%, P<0.01) and reduced (by 27%, P<0.05) ischaemia-induced dopamine release. Ischaemia (10 min) also caused significant decreases in striatal (25%, P<0.01) and cortical (31%, P<0.001) metabolic activity, manifested as a drop in mean TTC staining intensity. Racemic ketamine and its (+)- and (-)-enantiomers (each 100 microM) attenuated the loss of metabolic activity in the striatum. However, in the cortex, only (+)-ketamine (100 microM) was significantly neuroprotective. We conclude that neuroprotection by ketamine in cerebral ischaemia is both region- and isomer-dependent.
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PMID:Comparison of ketamine stereoisomers on tissue metabolic activity in an in vitro model of global cerebral ischaemia. 1122 16

Previous studies in piglets show that hypercapnic pial artery dilation was blunted following cerebral ischemia. Unrelated studies show that the newly described opioid nociceptin orphanin FQ (NOC/oFQ) is released into cerebrospinal fluid and contributes to altered cerebral hemodynamics following hypoxia/ischemia. This study was designed to determine the contribution of NOC/oFQ to hypoxic/ischemic impairment of hypercapnic pial dilation in piglets equipped with a closed cranial window. Global cerebral ischemia was produced via elevated intracranial pressure. Hypoxia decreased P(O2) to 34 +/- 3 mmHg. Topical NOC/oFQ (10(-10) M), the CSF concentration following hypoxia/ischemia, had no effect on pial artery diameter by itself but attenuated hypercapnia P(CO2) of (73 +/- 2 mmHg)-induced pial artery dilation (28 +/- 2 vs. 19 +/- 2%). Hypercapnia pial artery dilation was blunted by hypoxia/ischemia but such dilation was partially protected by pretreatment with the putative NOC/oFQ receptor antagonist, [F/G] NOC/oFQ (1-13) NH(2) (10(-6) M), (25 +/- 1, sham control; 4 +/- 1, hypoxia/ischemia; and 12 +/- 3%, hypoxia/ischemia + [F/G] NOC/oFQ (1-13) NH(2), respectively). These data suggest that NOC/oFQ release contributes to impaired hypercapnia-induced cerebrovasodilation following hypoxia/ischemia.
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PMID:Nociceptin/orphanin FQ contributes to hypoxic/ischemic impairment of hypercapnic cerebrovasodilation. 1154 45


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