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:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Central nervous system and cardiovascular toxicity are well-known side effects of bupivacaine. We report a case of bupivacaine-induced myocardial depression and cardiogenic pulmonary edema. A previously healthy woman developed soon after bupivacaine epidural injection of 5 mL 0.5% (25 mg) cardiogenic shock complicated with pulmonary edema. There were pronounced rales on auscultation with a butterfly sign on chest radiograph. A cardiac ultrasound showed reduced myocardial contractility, diffuse hypokinesia, left ventricular ejection fraction (LVEF) 25%, mitral and pulmonary insufficiency. Right heart catheterization showed increased pulmonary artery wedge pressure (34 mm Hg) and a pulmonary artery pressure of 48 over 33 mm Hg. These findings suggest myocardial depression owing to bupivacaine sodium channel blocking of myocardial nerve and tissue and subsequent reduction of myocardial contractility. The patient completely recovered with normalization of clinical, roentenographic, ultrasound, and hemodynamic findings and discharged 10 days later in good condition.
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PMID:Bupivacaine-induced myocardial depression and pulmonary edema: a case report. 1095 83

Whole cell voltage clamp recording was used to investigate neurotransmitter release onto neurones in deep and superficial layers of rat entorhinal cortex in vitro. Activation of metabotropic glutamate receptors with the agonist (1S,3R,4S)-1-aminocyclopentane-1,2,4-tricarboxylic acid depressed spontaneous release of the inhibitory neurotransmitter GABA in layer V, but not in layer II. Depression of transmitter release did not persist in the presence of the sodium channel blocker tetrodotoxin. It seems likely that activation of presynaptic glutamate heteroreceptors inhibits action potential dependent release of neurotransmitter via a direct action at the presynaptic terminal. We confirmed that depression of inhibitory neurotransmission in layer V was mediated by group III metabotropic glutamate receptors using a specific group III antagonist, (RS)-cyclopropyl-4-phosphonophenylglycine. Application of the antagonist alone did not alter the frequency of spontaneous neurotransmitter release, suggesting that the metabotropic glutamate receptor is not tonically active. In layer V of the entorhinal cortex, activation of presynaptic metabotropic glutamate receptors enhances spontaneous glutamate release, and inhibits spontaneous release of GABA. These effects may combine to increase random action potential firing in this layer, thereby reducing its capacity for synchrony generation. Our results are consistent with an anticonvulsant action for group III metabotropic glutamate receptors in the entorhinal cortex.
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PMID:Activation of presynaptic group III metabotropic glutamate receptors depresses spontaneous inhibition in layer V of the rat entorhinal cortex. 1148 1

Central and regional block procedures have a well-defined role as safe and effective methods in modern anesthesia and analgesia with long-acting local anesthetics. Recent studies have shown that the incidence of intoxication by these drugs is a rare but catastrophic event. As classic neuronal sodium channel inhibitors, local anesthetics block peripheral fast voltage-gated sodium channels on neuronal axons, and these drugs have a particularly high level of activity in the CNS and the cardiovascular system. CNS-toxicity follows a two-stage process, whereby at lower concentrations inhibitory neurons are blocked first resulting in generalized convulsions, and at higher concentrations a global CNS depression can be seen. Although seizures are an impressive clinical syndrome, they can often be treated safely without permanent damage. More important is the cardiotoxicity of these drugs, which can be divided into indirect cerebrally mediated and a direct myocardial component. Like CNS-toxicity in general, indirect cardiotoxicity demonstrates an initial stimulating effect, followed by a depressive component at higher concentrations. Direct myocardial actions are comprised of negative chronotropic, dromotropic and inotropic effects. For dromotropy, stereoselectivity was found. The S-(-)-isomers of the longacting local anesthetics were less delayed compared to racemic mixtures and the R-(+)-enantiomers. For inotropy, no stereospecific depression of this parameter was noted between isomers of ropivacaine or bupivacaine, but bupivacaine produced a significantly greater depression of LV pressure than ropivacaine, mepivacaine, or lidocaine. Pharmacokinetic differences in lipophilicity of local anesthetics correlate well with the depression mitochondrial ATP-synthesis in fast metabolizing cells. Intracellular ATP-level may be involved in contractility and resuscitation of cardiomyocytes, as be proven by in-vitro and in-vivo data. Therefore the use of pure optical S-(-)-isomers of local anesthetics may help to reduce these rare but catastrophic events. Presently, ropivacaine appears to be the safest long-acting local anesthetic.
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PMID:The cardiotoxicity of local anesthetics: the place of ropivacaine. 1189 38

High extracellular potassium induces spreading depression-like depolarizations and elevations of extracellular glutamate. Both occur in the penumbra of a focal ischemic infarct, and may be responsible for the spread of cell death from the infarct core to the penumbra. We have modeled this situation with microdialysis of an isotonic high-potassium solution into the normal rat amygdala for 70 min. This elevates extracellular glutamate up to 8-fold or more and produces irreversibly damaged, acidophilic neurons. NMDA-receptor blockade protects neurons and reduces the elevation of extracellular glutamate. Here we investigated the effects of sodium channel blockade with the voltage-sensitive sodium channel blocker tetrodotoxin and the AMPA receptor antagonist 2,3-dihydroxy-6-nitro-1,2,3,4-tetrahydrobenzo(f)quinoxaline-7-sulfonamide disodium (NBQX disodium) on high potassium-induced neuronal death and extracellular glutamate elevations. The acidophilic neurons produced are necrotic by ultrastructural examination. Tetrodotoxin, at dialysate concentrations of 33, 330 and 3300 microM (only a small fraction is extracted by tissue), markedly reduced the elevations of glutamate in rat amygdala at nearly all time points during high-potassium perfusion, but it reduced tissue edema only at the highest concentration, and it was neuroprotective only if dialyzed prior to high-potassium microdialysis (at 330 microM concentration). Although both 250 microM (6.2% is extracted by tissue) and 500 microM NBQX reduced elevations of glutamate, neither was neuroprotective, and neuropil edema was not reduced by either concentration. Our results suggest that in vivo, sodium influx through voltage-sensitive sodium channels but not through ligand-gated AMPA receptor channels contributes to high potassium-induced neuronal necrosis.
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PMID:Effects of AMPA-receptor and voltage-sensitive sodium channel blockade on high potassium-induced glutamate release and neuronal death in vivo. 1213 1

Lithium alone or in combination with other psychotherapeutic drugs has long been the gold standard of management for bipolar disorder (BD). Recognition of its limitations in the acute and chronic management of BD has led to the development of alternative therapies. One such approach involves the use of antiepileptic drugs (AEDs). The AED topiramate is currently being studied in the efficacy and management of BD. Topiramate has mechanisms in common with other AEDs, including sodium channel-blocking activity and enhancement of cerebral GABA concentrations. Open-label trials have evaluated topiramate at mean daily doses of 100 to 300 mg in various BD subtypes, including acute mania, depression, rapid-cycling, mixed states, and BD refractory to other medications. Results from these trials suggest topiramate may be efficacious in BD subtypes, particularly in rapid-cycling patients and those refractory to conventional treatment. Its side effect profile appears benign when used as monotherapy or in combination with other mood stabilizers. Placebo-controlled, double-blind studies are warranted to evaluate topiramate further in BD.
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PMID:Review of the use of topiramate for treatment of bipolar disorders. 1245 60

Acute valproic acid intoxication is an increasing problem, accounting for more than 5000 calls to the American Association of Poison Control Centers in 2000. The purpose of this paper is to review the pharmacology and toxicology of valproic acid toxicity. Unlike earlier antiepileptic agents, valproic acid appears to function neither through sodium channel inhibition nor through direct gamma-aminobutyric acid agonism, but through an indirect increase in regional brain gamma-aminobutyric acid levels. Manifestations of acute valproic acid toxicity are myriad, and reflect both exaggerated therapeutic effect and impaired intermediary metabolism. Central nervous system depression is the most common finding noted in overdose, and may progress to coma and respiratory depression. Cerebral edema has also been observed. Although hepatotoxicity is rare in the acute overdose setting, pancreatitis and hyperammonemia have been reported. Metabolic and hematologic derangements have also been described. Management of acute valproic acid ingestion requires supportive care and close attention to the airway. The use of controversial adjunctive therapies, including extracorporeal drug elimination and L-carnitine supplementation, will be discussed.
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PMID:Valproic acid toxicity: overview and management. 1467 6

Excessive glutamatergic activity is implicated in Parkinson's disease (PD) and sodium channel blockade, resulting in inhibition of glutamate release, is a potential therapeutic approach to PD therapy. Beneficial effects of riluzole and lamotrigine have been reported in animal models of PD, but these compounds have relatively low potency as sodium channel inhibitors and also inhibit N and P/Q-type calcium channels. 202W92, a structural analog of lamotrigine, is a potent sodium channel inhibitor, with no effect on N, P/Q-type channels. Here we present the effects of 202W92 on single patch-clamped dopaminergic neurons. 202W92 (> or =10 microM) inhibited spontaneous action potential firing and reduced amplitude and frequency of evoked action potentials. It also inhibited the frequency of 4-aminopyridine (4-AP)- and electrically evoked excitatory postsynaptic currents (EPSCs) and GABAergic inhibitory postsynaptic currents (IPSCs), with >80% inhibition at 10 microM (IC(50) 1.5 microM). EPSC and IPSC amplitudes were partially inhibited. 202W92 did not affect postsynaptic responses to locally applied glutamate and GABA, nor spontaneously occurring mini-IPSCs. These actions of 202W92 are compatible with sodium channel inhibition and depression of transmitter release.
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PMID:Actions of the sodium channel inhibitor 202W92 on rat midbrain dopaminergic neurons. 1264 37

During the transition from a slow to rapid depolarization rhythm, rate-dependent sodium channel blockade develops progressively and increases from beat to beat under procainamide but more abruptly under lidocaine. We investigated the consequences of such differences on the dynamic course and stability of reentrant tachycardias at their onset. Procainamide and lidocaine were infused to equipotent plasma concentrations in canines with three-day-old myocardial infarction. We measured the activation times (ms) and maximum slopes of negative deflections in activation complexes (absolute value: /-dV/dt(max)/ in mV/ms) in 191 unipolar electrograms recorded from ischemically damaged subepicardial muscle during programmed stimulation inducing reentrant tachycardias. Procainamide caused a greater reduction in /-dV/dt(max)/ than did lidocaine in the responses to basic stimulation, and it favored the occurrence of cycle length prolongation at tachycardia onset as the /-dV/dt(max)/ decreased progressively in successive beats. This resulted in conduction block and tachycardia termination in three of eight preparations. In contrast, lidocaine caused a greater depression in /-dV/dt(max)/ in response to closely coupled extrastimuli, but /-dV/dt(max)/ remained constant or even improved thereafter, and none of the tachycardias terminated spontaneously under lidocaine (n = 9). However, the reentrant circuits remained spatially unstable, and lidocaine favored the occurrence of cycle length dynamics displaying constant or decreasing trends. This study supports the notion that cycle length dynamics at tachycardia onset are determined by the properties of the reentrant substrate and their pharmacological modulation.
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PMID:Spatiotemporal dynamics of reentrant ventricular tachycardias in canine myocardial infarction: pharmacological modulation. 1277 47

The cellular electrophysiological effect of azimilide (0.1-30 microM) was analyzed in canine ventricular preparations by applying the standard microelectrode and patch-clamp techniques at 37 degrees C. In papillary muscle, the drug prolonged the action potential duration (APD) in a concentration-dependent manner at a cycle length (CL) of 1000 ms. In Purkinje fibers, at the same CL, the concentration-dependent lengthening of the APD was observed in the presence of up to 3 microM azimilide (at 3.0 microM: 24.1+/-4.2%, n=9); at higher drug concentration, no further APD prolongation was observed. Azimilide lengthened APD in a reverse frequency-dependent manner in papillary muscle and Purkinje fibers alike. Azimilide (10 microM) caused a rate-dependent depression in the maximal upstroke velocity of the action potential (V(max)) in papillary muscle. The time and rate constants of the offset and onset kinetics of this V(max) block were 1754+/-267 ms (n=6) and 5.1+/-0.4 beats (n=6), respectively. Azimilide did not prevent the APD shortening effect of 10 microM pinacidil in papillary muscle, suggesting that the drug does not influence the ATP-sensitive K(+) current. Azimilide inhibited the rapid (I(Kr)) and slow component (I(Ks)) of the delayed rectifier K(+) current and the L-type Ca(2+) current (I(Ca)). The estimated EC(50) value of the drug was 0.59 microM for I(Ks), 0.39 microM for I(Kr) and 7.5 microM for I(Ca). The transient outward (I(to)) and the inward rectifier (I(k1)) K(+) currents were not influenced by the drug. It is concluded that the site of action of azimilide is multiple, it inhibits not only K(+) (I(Kr), I(Ks)) currents but, in higher concentrations, it also exerts calcium- and use-dependent sodium channel block.
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PMID:Multiple cellular electrophysiological effects of azimilide in canine cardiac preparations. 1279 54

In this study the effect of IL-1 beta on [(3)H]purine release from rat hippocampal slices was explored. IL-1 beta (3 x 10(-18)-3 x 10(-14) M) concentration-dependently elevated the basal [(3)H]purine efflux, and this effect was reversed by the selective IL-1RI receptor antagonist IL-1ra (10(-12) M). HPLC analysis revealed that the amount of [(3)H]ATP and [(3)H]adenosine significantly increased in the effluent in response to IL-1 beta. The sodium channel inhibitor tetrodotoxin, the NMDA and non-NMDA receptor antagonists d(-)-2-amino-5-phosphonopentanoic acid (AP-5) plus 6-cyano-7-nitroquinoxaline-2,3-dione-disodium (CNQX) almost completely abolished IL-1 beta-evoked [(3)H]purine release. The effect of IL-1 beta on [(3)H]purine efflux was also prevented by the p38 MAP kinase inhibitor SB 203580, by the nucleoside transport inhibitor nitrobenzyl-thioinosine (NBTI) and by low temperature (4 degrees C). In summary IL-1 beta triggers a transporter mediated [(3)H]purine efflux in the hippocampus which is conveyed by glutamate receptor activation and the p38 MAP kinase pathway, and could serve as a mediator of IL-1 beta-induced synaptic depression.
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PMID:Potent effect of interleukin-1 beta to evoke ATP and adenosine release from rat hippocampal slices. 1514 1


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