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

We examined whether pentobarbital (PB) inhibited the acute extracellular release of dopamine that occurs in the striatum following the onset of ischemic injury in the gerbil model of stroke. The cerebral dialysis technique was employed to monitor striatal extracellular dopamine concentrations before and after carotid artery occlusion while perfusing either a control solution of artificial cerebrospinal fluid (CSF) or a 1 mM solution of pentobarbital in CSF (PB/CSF). During perfusion with CSF, extracellular dopamine increased from a baseline concentration of 0.40 +/- 0.09 (SEM) pmoles/10 minute collection interval to 30.0 +/- 9.0 pmoles/10 minutes after carotid artery occlusion. In contrast, during perfusion with PB/CSF, dopamine levels increased from a baseline of 1.37 +/- 0.3 pmoles/10 minutes to 8.30 +/- 2.6 pmoles/10 minutes; this increase was significantly less than the increase in controls. In animals with established ischemia, repeatedly alternating the perfusion fluid between CSF and PB/CSF demonstrated that dopamine concentrations were significantly increased with CSF alone and decreased with PB/CSF. These findings demonstrate that pentobarbital perfusion either before or following the onset of ischemia inhibits extracellular release of dopamine in the striatum. Inhibition of neurotransmitter release may, in part, be responsible for the protective effect of pentobarbital in ischemic brain injury.
J Neural Transm Gen Sect 1990
PMID:Pentobarbital inhibits extracellular release of dopamine in the ischemic striatum. 222 89

The cerebral dialysis technique was employed to monitor extracellular concentrations of dopamine (DA), norepinephrine (NE), dihydroxyphenylacetic acid (DOPAC), and homovanillic acid (HVA) in the dorsal hippocampus of gerbils before and after cerebral ischemia induced by carotid artery occlusion. Extracellular concentrations of DA and NE in the dorsal hippocampus increased from baseline levels of less than 35 fmol/collection interval to 180 and 200 fmol/collection, respectively, within 36 minutes following carotid artery ligation (n = 8 animals). Extracellular concentrations of the DA metabolites, DOPAC and HVA, did not change significantly following carotid artery ligation. These data demonstrate that ischemia in the dorsal hippocampus is associated with a mared release of DA and NE. This release may contribute to the selective vulnerability of the dorsal hippocampus to neuronal damage during ischemia.
J Neural Transm Gen Sect 1990
PMID:Ischemia in the dorsal hippocampus is associated with acute extracellular release of dopamine and norepinephrine. 233 46

The effects of pronase and/or SDS pretreatment on Na+-Ca2+ exchange were studied in rat brain microsomal membranes. Pronase in concentrations that liberated 11% of the membrane proteins stimulated the Na+-Ca2+ exchange. When about 24% of the proteins were split off, the results did not differ from those in control experiments. When 40% or more of the proteins were solubilized, Na+-Ca2+ exchange was abolished. Pronase pretreatment did not change the Km value for Ca2+, it increased Vmax only. The effect of pronase was partially blocked by Trasylol. Neuraminidase had no effect on Na+-Ca2+ exchange. SDS pretreatment of the membranes inhibited Na+-Ca2+ exchange: when 25% of membrane proteins were solubilized with SDS, the Na+-Ca2+ exchange was abolished while the same amount of proteins split off with pronase did not change the rate of Na+-Ca2+ exchange as related to membrane proteins. Ischaemia lasting for 2-4 h or complete hypoxia which should stimulate endogenous proteinases due to the rise of free intracellular calcium did not influence the Na+-Ca2+ exchange. A decrease in Na+-Ca2+ exchange rate was observed when proteins with molecular weight between 45,000 and 20,000 were split off from the membranes. It is assumed that the Na+-Ca2+ antiporter is a polypeptide from the group of proteins within the above molecular weights.
Gen Physiol Biophys 1985 Jun
PMID:Na+-Ca2+ exchange in rat brain microsomal membranes pretreated with pronase and/or SDS. 241 32

1. We examined the electrophysiological effects of acute exposure to amiodarone (AM) on ischemic myocardium. 2. Regional myocardial ischemia was performed by occlusion on left anterior descending coronary artery in dog heart. 3. Conventional glass microelectrode techniques were used for electrophysiological investigation of regional ischemia. 4. The effects of AM on action potentials of subendocardial Purkinje fibers and ventricular muscle excised from ischemic area were studied and compared the findings with those obtained from non-ischemic area. 5. Acute exposure to AM, 4.4 x 10(-5) M, prolonged the total duration of action potential in the ischemic ventricular muscle and decreased the maximum upstroke velocity of action potentials significantly. 6. On the other hand, in the ischemic Purkinje fibers, AM produced no significant actions. 7. These findings suggest that AM's antiarrhythmic activity is, at least in part, due to its differential effects on repolarization of ischemic Purkinje fibers and ventricular muscle.
Gen Pharmacol 1989
PMID:Differential electrophysiological effects of amiodarone on ventricular muscle and Purkinje fibers in canine one-day-old myocardial infarction. 259 7

The conductance of the inward-rectifying K+ current (IK1) in isolated cat ventricular myocytes is decreased by reducing the extracellular Na+ concentration. Using a whole-cell patch-clamp technique, possible mechanisms underlying this Na+ dependence were investigated. These included (a) block of inward K+ current by the Na+ substitute, (b) changes in membrane surface charge associated with removal of extracellular Na+, (c) increases of intracellular Ca2+ due to suppression of Na-Ca exchange, (d) reduction of a Na+-dependent K+ conductance due to a subsequent decrease of intracellular Na+, (e) reduction of IK1 conductance (gK1) associated with reduction of intracellular pH due to suppression of Na-proton exchange. The findings support the hypothesis that the effect of removing Na+ is mediated through a decrease in intracellular pH. These include observations that: (a) reducing internal pH by reducing external pH caused a decrease in gK1, and the conductance changes caused by reducing extracellular pH and removing extracellular Na+ were not additive: (b) the effect of reducing pHo was attenuated by dialyzing with a low pH internal solution; (c) gK1 was reduced by exposure to the Na-proton exchange inhibitor dimethylamiloride, and this effect was absent in the absence of Na+. These findings imply that physiological or pathological processes such as ischemia and metabolic or respiratory acidosis which can produce intracellular acidosis should be expected to affect K+ permeation through the IK1 channel.
J Gen Physiol 1989 Aug
PMID:On the role of sodium ions in the regulation of the inward-rectifying potassium conductance in cat ventricular myocytes. 279 68

The effect of severe incomplete ischemia, induced by abdominal aorta ligation for 40 minutes, and subsequent recirculation for one and four days on accumulation of free fatty acids was studies in the lumbar and cervical part of rabbit spinal cord. Changes in free fatty acid levels were determined separately in gracile fascicle (Fg), dorsal part (Dp, without Fg) and ventral part (Vp) of both spinal cord regions. In lumbar spinal cord increases in free fatty acid levels, especially that of arachidonate, were observed in Fg, Dp and Vp a the end of the ischemic period. During recirculation all values were similar to nonischemic controls. In cervical spinal cord a slight increase in free fatty acid levels was found in Fg after four days of recirculation, and in Dp arachidonate and stearate levels were most markedly elevated after one day of recirculation. No changes at any interval were found in Vp of cervical spinal cord. The present results indicate that the experimental insult induced typical ischemic injury to spinal cord tissue demonstrated by fatty acid liberation from membrane lipids. This injury may affect neurotransmission and other processes and free fatty acids themselves impair tissue metabolism (inhibition of oxidative phosphorylation, edema precipitation, synthesis of eicosanoids) and thus restrict the possibilities to enhance recovery in the recirculation period.
Gen Physiol Biophys 1987 Aug
PMID:Effects of incomplete ischemia and subsequent recirculation on free palmitate, stearate, oleate and arachidonate levels in lumbar and cervical spinal cord of rabbit. 311 17

1. Cerebral ischemia of 5 min duration was induced in unanesthetized gerbils by bilateral occlusion of the carotid arteries. 2. The extent of cerebral damage was assessed by the elevation of motor activity in comparison with pre-ischemic levels and by a histological assessment of the extent of neuronal degeneration of the CA1 area of the hippocampus. 3. The GABA transport inhibitor CI-966 (10 mg/kg i.p.) was tested for cerebroprotective activity in a gerbil stroke model. CI-966 reduced the extent of stroke injury as assessed by locomotor activity and measurement of hippocampal CA1 pyramidal cell injury. 4. It is proposed that enhancement of extracellular GABA levels during ischemia accounts for the cerebroprotective actions of CI-966.
Gen Pharmacol 1995 Sep
PMID:CI-966, a GABA uptake inhibitor, antagonizes ischemia-induced neuronal degeneration in the gerbil. 755 51

Among the vascular disorders of the small intestine, two major categories are mesenteric ischemia and occult gastrointestinal bleeding secondary to a mucosal or muscular lesion. Mesenteric ischemia remains a clinical entity with a high mortality. Recent advances in the understanding of the pathogenesis of mesenteric ischemia have focused on the role of the neutrophil in modulating reperfusion injury. The advent of duplex scanning has provided a noninvasive method to detect hemodynamically significant stenoses in the mesenteric vessels. Effective small bowel endoscopy remains a critical requirement for endoluminal intestinal enteroscopy, and its application has proved of increasing advantage in the localization of small intestinal lesions that may be the source of occult gastrointestinal bleeding.
Curr Opin Gen Surg 1993
PMID:Gastrointestinal vascular and ischemic syndromes. 758 76

Hepatic malignancy accounts for a large number of cancer-related deaths worldwide. Radiologic evaluation of the liver is critically important in the selection of patients for surgical treatment and newer modalities including computed tomographic arterial portography and intraoperative sonography show promise in the detection of small lesions. Advances in our understanding of the segmental anatomy of the liver, studies of intraoperative hepatic ischemia, and improved care of patients following major hepatic resections have extended the limits of surgical treatment of liver lesions, especially in cirrhotic patients with limited functional reserve. Along with hepatitis B, new data suggest that hepatitis C is also important as an agent causing hepatocellular carcinoma. In addition, the tumor suppressor gene p53 is frequently mutated in aflatoxin-induced hepatoma. In endemic regions, mass screening for early hepatocellular carcinoma appears to increase the surgical cure rate. Resectional surgery remains the best treatment for primary liver cancer and, in selected cases, liver transplantation is worthwhile. Liver resection for some patients with metastases of colorectal origin is now considered standard therapy and studies of regional chemotherapy for liver cancer are beginning to show promise. It remains to be seen whether adjuvant chemotherapy after liver resection will increase cure rates.
Curr Opin Gen Surg 1993
PMID:Primary and secondary hepatic malignancies. 758 84

A sustained high voltage-activated (HVA), nifedipine- and cadmium-sensitive calcium current and a sustained calcium action potential (AP) were recorded from horizontal cells isolated from catfish retina. pH indicator dyes showed that superfusion with NH4Cl alkalinized these cells and that washout of NH4Cl or superfusion with Na-acetate acidified them. HVA current was slightly enhanced during superfusion of NH4Cl but was suppressed upon NH4Cl washout or application of Na-acetate. When 25 mM HEPES was added to the patch pipette to increase intracellular pH buffering, the effects of NH4Cl and Na-acetate on HVA current were reduced. These results indicated that intracellular acidification reduces HVA calcium current and alkalinization increases it. Sustained APs, recorded with high resistance, small diameter microelectrodes, were blocked by cobalt and cadmium and their magnitude varied with extracellular calcium concentration. These results provide confirmatory evidence that the HVA current is a major component of the AP and indicate that the AP can be used as a measure of how the HVA current can be modified in intact, undialyzed cells. The duration of APs was increased by superfusion with NH4Cl and reduced by washout of NH4Cl or superfusion with Na-acetate. The Na-acetate and NH4Cl washout-dependent shortening of the APs was observed in the presence of intracellular BAPTA, a calcium chelator, IBMX, a phosphodiesterase inhibitor, and in Na-free or TEA-enriched saline. These findings provide supportive evidence that intracellular acidification may directly suppress the HVA calcium current in intact cells. Intracellular pH changes would thereby be expected to modulate not only the resting membrane potential of these cells in darkness, but calcium-dependent release of neurotransmitter from these cells as well. Furthermore, this acidification-dependent suppression of calcium current could serve a protective role by reducing calcium entry during retinal ischemia, which is usually thought to be accompanied by intracellular acidosis.
J Gen Physiol 1993 May
PMID:Modulation of a sustained calcium current by intracellular pH in horizontal cells of fish retina. 768 44


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