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)

This study sought to test the hypothesis that intravenous basic fibroblast growth factor (bFGF) inhibits the development of brain injury during transient focal ischemia. Halothane-anesthetized cats (n=39) underwent left middle cerebral artery occlusion for 60 minutes. After the onset of reperfusion, wounds were closed and the cats were allowed to emerge from anesthesia. Experimental cats were treated with intravenous bFGF at a dose of either 2 or 5 microg/kg per hour, beginning 45 minutes after initiation of ischemia and continuing until 24 hours of reperfusion, when neurologic function and infarction volume were evaluated. The cats in the control group received diluent. Three of thirteen cats treated with bFGF 2 microg/kg/hour and six of sixteen cats treated with bFGF 5 microg/kg/hour died during the 24 hour reperfusion period. There was no difference in injury volume or neurologic evaluation score in the control group (n=10; hemisphere injury, 1301+/-306 mm3, mean+/-SE; score 53+/-3), and cats treated with either 2 microg/kg/hour (n=10; hemisphere injury, 1170+/-292 mm3; score 50+/-3) or 5 microg/kg/hour bFGF (n=10; hemisphere injury, 1343+/-374 mm3; score 50+/-2). The data collected do not support the hypothesis that intravenous bFGF is neuroprotective in a cat model of transient focal ischemia.
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PMID:Intravenous basic fibroblast growth factor does not ameliorate brain injury resulting from transient focal ischemia in cats. 968 4

Delayed treatment with aminoguanidine (AG), a relatively selective inhibitor of inducible nitric oxide synthase, ameliorates brain damage produced by occlusion of the rat's middle cerebral artery (MCA). We investigated whether the protection exerted by AG is dose-dependent and whether it is associated with improved neurologic outcome. We also studied the effect of the timing of administration of AG relative to the induction of cerebral ischemia. Halothane-anesthetized spontaneously hypertensive rats underwent permanent MCA occlusion distal to the lenticulostriate branches. Neurologic deficits were assessed daily by the postural reflex test and beam balance test. Infarct volume was determined in thionin- stained sections 96 hours after ischemia and values corrected for swelling. Treatment with AG (intraperitoneally, twice daily), starting 24 hours after MCA occlusion, decreased neocortical infarct volume in comparison to vehicle-treated rats. After correction for swelling, the decrease was 8 +/- 12% at 50 mg/kg (n = 8; P > .05; analysis of variance), 25 +/- 13% at 100 mg/kg (n = 7; P < .05), 30 +/- 16% at 200 mg/kg (n = 7; P < .05) and 32 +/- 9% at 400 mg/kg (n = 5; P < .05). Twenty-four hours after induction of ischemia neurologic deficits scores did not differ between treated and untreated rats (P > .05). However, from 48 to 96 hours after ischemia, neurologic deficits improved significantly in rats treated with AG (100 to 400 mg/kg) compared to rats in which vehicle was administered (P < .05). The decrease in neocortical infarct volume was greatest when AG (100 mg/ kg; twice daily) was administered 12 (26 +/- 17%; n = 9) or 24 hours (25 +/- 13, n = 7) after MCA occlusion. The findings show that AG decreases ischemic brain damage dose-dependently and improves neurologic recovery. Delayed treatment with AG may be a therapeutic strategy to selectively target the evolution of ischemic damage that occurs in the post-ischemic period.
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PMID:Delayed treatment with aminoguanidine decreases focal cerebral ischemic damage and enhances neurologic recovery in rats. 977 87

Halothane has been shown to be a powerful myocardial protectant during normothermic cardioplegic arrest and subsequent reperfusion. In view of its multiple effects on cellular Ca2+ movements and the role of this ion in ischemia-reperfusion injury, the questions of whether halothane is capable of maximally protecting the heart or whether combination therapy of halothane with other Ca2+ blocking agents may be more effective arose. Therefore, the effects of combination therapy with halothane and a calcium antagonist (nifedipine), or a Na+/H+ inhibitor (HOE 694), or a Na+/Ca2+ inhibitor (quinacrine) on postcardioplegic functional recovery were evaluated. The isolated perfused rat heart subjected to 45 minutes normothermic cardiac arrest was used as an experimental model. Dose-response curves were performed for each drug. Using the optimal dosage for each drug, the following results were obtained: (1) Nifedipine (10(-7) M; administered retrogradely 10 minutes before and after cardioplegia) and halothane (1.5% administered during cardioplegia), when administered separately, improved functional recovery. Combination therapy did not further improve protection. (2) HOE 694 (10(-7) M) or quinacrine (10(-9) M) improved post-cardioplegic functional recovery when added for 2 minutes at the onset of reperfusion. Simultaneous administration of HOE 694 and 1.5% halothane was the only combination that yielded additive protection. (3) Quinacrine, a phospholipase and Na+/Ca2+ exchanger inhibitor, appeared to be the most powerful drug used. In summary, the results obtained indicate that interventions aimed at preventing intracellular Ca2+ overload improve recovery after cardioplegic arrest. The beneficial effects of halothane could be further improved by HOE 694.
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PMID:Postcardioplegic myocardial recovery: effects of halothane, nifedipine, HOE 694, and quinacrine. 978 6

This study examined the effect of prolonged postischemic halothane administration on outcome from transient focal cerebral ischemia in rats. Conscious normothermic rats were subjected to 75 minutes of filament middle cerebral artery occlusion (MCAO). Animals were then divided into two groups. The Awake group (n = 15) remained awake following ischemia. The Halothane group (n = 15) received 1.3-1.4% halothane for 5 hours after onset of recirculation. In both groups, brain temperature was maintained at 37.5 degrees C during ischemia and the first 22 hours of recovery. Seven days after ischemia, the severity of hemiparesis and cerebral infarct size were examined. Neurologic scores did not differ between groups (Awake = 1+/-2.75; Halothane = 2+/-2; p = 0.772, median +/- interquartile range). Neurologic scores and total infarct volumes were correlated (R = 0.653; p = 0.0004). Cortical (Awake = 76+/-57 mm3; Halothane = 90+/-57 mm3; p = 0.494, mean +/- standard deviation), subcortical (Awake = 71+/-33 mm3; Halothane = 80+/-35 mm3; p = 0.472), and total (Awake = 147+/-88 mm3; Halothane = 171+/-91 mm3; p = 0.477) infarct volumes were not significantly different between groups. The data indicate that postischemic halothane administration offers no benefit in ameliorating damage from focal cerebral ischemia. This suggests that the neuroprotective effect of halothane observed in other studies is consistent with influences on intra-ischemic pathophysiology only.
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PMID:Effects of postischemic halothane administration on outcome from transient focal cerebral ischemia in the rat. 989 Mar 83

We have investigated genetic transmission of increased sensitivity to focal cerebral ischemia and the influence of gender in the stroke-prone spontaneously hypertensive rat (SHRSP). Halothane-anesthetized, 3- to 5-month-old male and female Wistar-Kyoto rats (WKY), SHRSP, and the first filial generation rats (F1 crosses 1 and 2) underwent distal (2 mm) permanent middle cerebral artery occlusion (MCAO) by electrocoagulation. Infarct volume was measured by using hematoxylin-eosin-stained sections and image analysis 24 hours after ischemia and expressed as a percentage of the volume of the ipsilateral hemisphere. Infarct volume in males and females grouped together were significantly larger in SHRSP, F1 cross 1 (SHRSP father), and F1 cross 2 (WKY father), at 36.6+/-2.3% (mean+/-SEM, P<0.001, n=15), 25.4+/-2.4% (P<0.01, n=14), and 33. 9+/-1.6% (P<0.001, n=18), respectively, compared with WKY (14+/-2%, n=17). Male F1 cross 1 (18.9+/-2.4%, n=6) developed significantly smaller infarcts than male F1 cross 2 (32.8+/-2%, n=8, P<0.005). Females, which underwent ischemia during metestrus, developed larger infarcts than respective males. A group of females in which the cycle was not controlled for developed significantly smaller infarcts than females in metestrus. Thus, the increased sensitivity to MCAO in SHRSP is retained in both F1 cross 1 and cross 2 hybrids, suggesting a dominant or codominant trait; response to cerebral ischemia appears to be affected by gender and stage in the estrous cycle. In addition, the male progenitor of the cross (ie, SHRSP versus WKY) influences stroke sensitivity in male F1 cohorts.
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PMID:Genetic and gender influences on sensitivity to focal cerebral ischemia in the stroke-prone spontaneously hypertensive rat. 1002 27

The study determined if head cooling would reduce the augmented increase in neural damage of global hemispheric hypoxic ischemia (GHHI) of prostaglandin E2 (PGE2) treated rats. Halothane anesthetized, male, Long-Evans rats (9-11 weeks of age), kept at 37 degrees C colonically (Tc) had (a) systemic core (colonic, Tc), temporalis muscle temperatures ipsilateral (Tipsi) and contralateral (Tcontra) to the side of right common carotid artery (RCCA) ligation, (b) mean arterial pressure (MAP) and (c) ipsilateral cortical capillary blood flow (CBF) measured simultaneously after intracerebroventricular (i.c.v.) injection (2.5 microl) of sterile (SS) or 25 ng PGE2 then GHHI (35 min of 12% O2, balance N2 after RCCA ligation) followed by a 10 min normoxic recovery period. Head cooling (10 degrees C cool air over the head region) occurred in one PGE2 subgroup 10 min post-injection until the end of the hypoxic period. Icv-PGE2 treated rats, maintained at 37 degrees C (no head cooling) had increased Tc, Tipsi, Tcontras and MAPs from respective pre-injection control values; this group showed increased ipsilateral hemispheric neural damage to GHHI assessed 7 days later, compared to i.c.v.-SS treated group given the same GHHI insult. Cooling the head region of rats previously given PGE2 decreased Tipsi and Tcontras from respective control temperatures but did not change MAP or CBF from respective pre-injection values. Hemispheric damage of the PGE2 cooled group was reduced from damage of non-cooled PGE2 treated rats and was similar to i.c.v.-SS treated rats. Results demonstrate that the heightened core temperatures induced by PGE2 administration (major endogenous mediator of bacterial fever induction) play a significant role in escalating the neural damage to global ischemia.
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PMID:The effect of head cooling on the physiological responses and resultant neural damage to global hemispheric hypoxic ischemia in prostaglandin E2 treated rats. 1021 71

Halothane protects the heart against the reperfusion injury observed after an ischemia. In ischemic or anoxic conditions, a large ATP-sensitive K(+) (K(ATP)) conductance is supposed to provide an endogenous protection to the myocardium. In this study, we tested the possibility that halothane acted by modulating this conductance. Isolated guinea-pig cardiomyocytes were successively studied in current clamp and in voltage-clamp conditions. Action potentials regulation by halothane was tested in control conditions and in situations where the K(ATP) channels were activated. In control conditions, halothane decreased action potential duration of myocytes but did not significantly alter the inward rectifying K(+) current. Conversely, halothane lengthened action potential of cells in which the K(ATP) conductance was activated, by inhibiting the K(ATP) current. In ischemic conditions, simultaneous shortening of long action potentials and lengthening of shortened ones would be expected to homogenize the absolute refractory period at the border between normoxic and anoxic zones. This effect, together with a decrease in calcium load, could protect the myocardium against re-entrant arrhythmias.
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PMID:Opposite effects of halothane on guinea-pig ventricular action potential duration. 1070 11

Transgenic mice, which exhibit a fivefold increase in brain parenchymal extracellular superoxide dismutase (EC-SOD) activity, were used to investigate the role of EC-SOD in global ischemic brain injury. Halothane-anesthetized normothermic wild-type (n = 22) and transgenic (n = 20) mice underwent 10 min of near-complete forebrain ischemia induced by bilateral carotid artery occlusion and systemic hypotension (mean arterial pressure = 30 mm Hg). After 3 days of recovery, the brains were histologically examined. Other mice underwent autoradiographic determination of regional CBF 10 min prior to, during, and 30 min after forebrain ischemia. Histologic injury in the cortex and caudoputamen was minimal in both groups. The percentage of dead hippocampal CA1 neurons was reduced in the EC-SOD transgenic group (wild type = 44 +/- 28%; EC-SOD transgenic = 23 +/- 21%, mean +/- SD, P = 0.015). CBF was similar between groups prior to ischemia. The intraischemic blood flow was severely reduced in forebrain structures and was similar between groups. Blood flow at 30 min postischemia had recovered to 50-60% of baseline values in both groups. These results indicate that EC-SOD can play an important role in defining the magnitude of selective neuronal necrosis resulting from near-complete forebrain ischemia. This implicates involvement of extracellular superoxide anions in the pathologic response to global cerebral ischemia.
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PMID:Mice overexpressing extracellular superoxide dismutase have increased resistance to global cerebral ischemia. 1083 13

The aim of this study is to determine experimentally whether N-methyl-D-aspartate (NMDA) receptor is involved in nitrotyrosine formation in rat brain subjected to focal ischemia-reperfusion, by using the NMDA receptor antagonist MK-801. Halothane-anesthetized and artificially ventilated rats were given MK-801 (5 mg/kg, i.p.) or vehicle prior to 2 h of focal cerebral ischemia followed by 0.5 h of reperfusion. The brain was then removed and divided into four sections, cortical ischemic core, peri-ischemic cortex, lateral caudate-putamen and non-ischemic cortex. Tissue nitrotyrosine was measured by means of hydrolysis/HPLC. MK-801 significantly attenuated nitrotyrosine formation in the lateral caudate-putamen. We conclude that nitrotyrosine formation required activation of NMDA receptors, at least in part.
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PMID:N-methyl-D-aspartate receptor antagonist reduces nitrotyrosine formation in caudate-putamen in rat focal cerebral ischemia-reperfusion. 1116 62

ATP depletion due to ischemia or metabolic inhibition (MI) causes Na(+) and Ca(2+) accumulation in myocytes, which may be in part due to opening of connexin-43 hemichannels. Halothane (H) has been shown to reduce conductance of connexin-43 hemichannels and to protect the heart against ischemic injury. We therefore investigated the effect of halothane on [Ca(2+)]i and [Na(+)]i in myocytes during MI. Isolated rabbit left ventricular myocytes were loaded with 4 microM fluo-3 AM for 30 min, or with 5 microM sodium green AM for 60 min at 37 degrees C. After washing, the myocytes were exposed to: (1) Normal HEPES solution; (2) MI solution (2 mM NaCN, 20 mM 2-deoxy-D-glucose and 0-glucose); or (3) MI+H (0.95 mM, 4.7 mM) for 60 min. Propidium iodide (PI, 25 microM) was added to all samples before data acquisition. The fluorescence intensity was measured by flow cytometry with 488 nm excitation and 530 nm emission for fluo-3 or sodium green, and 670 nm for PI. The [Ca(2+)]i and [Na(+)]i were then calculated by calibration. In some experiments, the effect of 10 microM tetrodotoxin (TTX) and 20 microM nifedipine (NIF) were studied. Metabolic inhibition for 60 min caused a significant increase in [Ca(2+)]i and [Na(+)]i in myocytes when compared to controls, which was significantly reduced by halothane in a dose-dependent fashion. In the presence of TTX and NIF, halothane also significantly reduced the rise in the [Ca(2+)]i and [Na(+)]i in myocytes subjected to MI. 1-heptanol, another gap junction blocker, had similar effects. Thus, halothane reduced [Ca(2+)]i and [Na(+)]i overload produced by MI in myocytes. This effect is not solely due to block of voltage-gated Na(+) and Ca(2+) channels, and is likely mediated by inhibiting the opening of connexin-43 hemichannels.
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PMID:Activation of connexin-43 hemichannels can elevate [Ca(2+)]i and [Na(+)]i in rabbit ventricular myocytes during metabolic inhibition. 1173 61

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