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:C0036341 (schizophrenia)
60,220 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We administered ketamine to schizophrenic individuals in a double-blind, placebo-controlled design using a range of subanesthetic doses (0.1, 0.3, and 0.5 mg/kg) to evaluate the nature, dose characteristics, time course, and neuroleptic modulation of N-methyl-D-aspartate (NMDA) antagonist action on mental status in schizophrenia. Ketamine induced a dose-related, short (< 30 minutes) worsening in mental status in the haloperidol-treated condition, reflected by a significant increase in BPRS total score for the 0.3 mg/kg (p = .005) and 0.5 mg/kg (p = .01) challenges. Positive symptoms (hallucinations, delusions, thought disorder), not negative symptoms accounted for these changes. These ketamine-induced psychotic symptoms were strikingly reminiscent of the subject's symptoms during active episodes of their illness. Results from six patients who were retested in the same design after being neuroleptic-free for 4 weeks failed to indicate that haloperidol blocks ketamine-induced psychosis. Several subjects evidenced delayed or prolonged (8-24 hours) psychotomimetic effects such as worsening of psychosis with visual hallucinations. These data suggest that antagonism of NMDA-sensitive glutamatergic transmission in brain exacerbates symptoms of schizophrenia.
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PMID:Subanesthetic doses of ketamine stimulate psychosis in schizophrenia. 852 75

A rapidly growing body of preclinical data has implicated the glutamatergic N-methyl-d-aspartate (NMDA) receptor in memory and other cognitive processes. There is comparatively less information about this receptor system in human cognition. We examined the effects of subanesthetic doses of ketamine, a noncompetitive NMDA receptor antagonist, on two forms of memory, free recall and recognition, as well as attention and behavior in a double-blind, placebo-controlled, 1-hour infusion in 15 healthy volunteers. Ketamine produced decrements in free recall, recognition memory, and attention. In addition, ketamine induced a brief psychosis in our healthy volunteers marked by thought disorder and withdrawal-retardation. Ketamine-induced memory impairments were not accounted for by changes in subject's attention and were not significantly related to psychosis ratings. These data suggest that the NMDA receptor plays a direct role in two types of explicit memory. The implications of these data for the pathophysiology of schizophrenia are discussed.
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PMID:NMDA receptor function and human cognition: the effects of ketamine in healthy volunteers. 870 99

Ketamine has been considered to be contraindicated for schizophrenic patients because it may induce psychological emergence reactions and psychiatric deterioration. Total intravenous anaesthesia (TIVA) with ketamine combined with droperidol and fentanyl (DFK) has been used in 14 schizophrenic patients undergoing various surgical procedures. Two patients died post-operatively of concomitant severe disease rather than from schizophrenia related pathophysiology or anaesthetic complication. One patient showed transient mild anxiety in the early post-operative period soon relieved by the patient's routine medication. However, no patient developed exacerbations of psychosis or psychological emergence reactions during the first post-operative month. The cardiovascular state during and after DFK remained stable in all cases. It is concluded that ketamine when combined with droperidol and fentanyl is a satisfactory anaesthetic for patients with schizophrenia.
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PMID:Uneventful total intravenous anaesthesia with ketamine for schizophrenic surgical patients. 904 58

Until recently, racemic ketamine (S-ketamine/R-ketamine = 50:50) has been used to study NMDA receptor hypofunction in relation to pathophysiological models of schizophrenia. Ketamine given to normal humans in subanesthetic doses produces a model psychosis including both positive and negative symptoms of schizophrenia. More recently it has been shown that at subanesthetic doses the pure (S)- and (R)-ketamine enantiomeres interact differently with the NMDA and sigma receptor sites in human brain. It was found that (S)-ketamine binds with a 3-4 time higher affinity to the PCP binding site of the NMDA receptor than (R)-ketamine, and that at these concentrations (R)-ketamine interacts also weakly with the sigma receptor sites, where (S)-ketamine binds only negligibly. To further investigate the role of NMDA-receptor mediated neurotransmission in schizophrenic psychosis, the effects of pure (S)- and (R)-ketamine enantiomeres on brain energy metabolism in normal humans using positron emission tomography and [18F]fluorodeoxyglucose (FDG) are reported here. Psychotomimetic doses of (S)-ketamine increased cerebral metabolic rates of glucose (CMRglu) markedly in the frontal cortex including the anterior cingulate, parietal and left sensorimotor cortex, and in the thalamus. The metabolic changes in the frontal and left temporal cortex correlated with ego-disintegration and hallucinatory phenomena. Equimolar doses of (R)-ketamine tended to decrease CMRglu across brain regions and significantly suppressed CMRglu in the temporomedial cortex and left insula. (R)-ketamine did not produce psychotic symptoms, but a state of relaxation. The (S)-ketamine-induced metabolic hyperfrontality appears to parallel similar metabolic findings in acute psychotic schizophrenic patients and encourages further investigations of glutamatergic disturbances in schizophrenia.
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PMID:Differential psychopathology and patterns of cerebral glucose utilisation produced by (S)- and (R)-ketamine in healthy volunteers using positron emission tomography (PET). 908 82

Subanesthetic doses of ketamine, a noncompetitive NMDA receptor antagonist, impair prefrontal cortex (PFC) function in the rat and produce symptoms in humans similar to those observed in schizophrenia and dissociative states, including impaired performance of frontal lobe-sensitive tests. Several lines of evidence suggest that ketamine may impair PFC function in part by interacting with dopamine neurotransmission in this region. This study sought to determine the mechanism by which ketamine may disrupt dopaminergic neurotransmission in, and cognitive functions associated with, the PFC. A thorough dose-response study using microdialysis in conscious rats indicated that low doses of ketamine (10, 20, and 30 mg/kg) increase glutamate outflow in the PFC, suggesting that at these doses ketamine may increase glutamatergic neurotransmission in the PFC at non-NMDA glutamate receptors. An anesthetic dose of ketamine (200 mg/kg) decreased, and an intermediate dose of 50 mg/kg did not affect, glutamate levels. Ketamine, at 30 mg/kg, also increased the release of dopamine in the PFC. This increase was blocked by intra-PFC application of the AMPA/kainate receptor antagonist, 6-cyano-7-nitroquinoxaline-2,3-dione CNQX. Furthermore, ketamine-induced activation of dopamine release and impairment of spatial delayed alternation in the rodent, a PFC-sensitive cognitive task, was ameliorated by systemic pretreatment with AMPA/kainate receptor antagonist LY293558. These findings suggest that ketamine may disrupt dopaminergic neurotransmission in the PFC as well as cognitive functions associated with this region, in part, by increasing the release of glutamate, thereby stimulating postsynaptic non-NMDA glutamate receptors.
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PMID:Activation of glutamatergic neurotransmission by ketamine: a novel step in the pathway from NMDA receptor blockade to dopaminergic and cognitive disruptions associated with the prefrontal cortex. 909 13

Ketamine is an N-methyl-D-aspartate (NMDA) receptor antagonist with psychotogenic and dissociative effects in healthy humans. These cognitive and perceptual effects in humans are reportedly reduced by benzodiazepine premedication. This study assessed the interactive effects of a ketamine (i.v. bolus of 0.26 mg/kg followed by an infusion of 0.65 mg/kg per hour) and lorazepam 2 mg., PO, in humans. Twenty-three healthy subjects completed 4 test days involving the oral administration of lorazepam or matched placebo 2 h prior to the i.v. infusion of ketamine or placebo. Ketamine: 1) produced behaviors similar to the positive and negative symptoms of schizophrenia as assessed by the Brief Psychiatric Rating Scale (BPRS); 2) evoked perceptual alterations as measured by the Clinician-Administered Dissociative States Scale (CADSS); 3) impaired performance on the Wisconsin Card Sorting Test (WCST) and other tests sensitive to frontal cortical impairment; and 4) had amnestic effects. Lorazepam produced attention impairments, concrete proverb interpretations, and recall impairments. Lorazepam reduced ketamine-associated emotional distress and there was a non-significant trend for it to decrease perceptual alterations produced by ketamine. However, it failed to reduce many cognitive and behavioral effects of ketamine, including psychosis. Further, lorazepam exacerbated the sedative, attention-impairing, and amnestic effects of ketamine. There was no evidence of pharmacokinetic interaction between these medications. These data suggest that subhypnotic lorazepam and ketamine show a spectrum of interactive effects, ranging from antagonism to potentiation.
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PMID:Interactive effects of subanesthetic ketamine and subhypnotic lorazepam in humans. 949 24

Subanesthetic doses of ketamine have been shown to exacerbate symptoms in schizophrenia and to induce positive, negative, and cognitive schizophrenic-like symptoms in normal subjects. The present investigation sought to define brain regions affected by subanesthetic doses of ketamine, using high resolution autoradiographic analysis of 14C-2-deoxyglucose (2-DG) uptake and immunocytochemical staining for Fos-like immunoreactivity (Fos-LI). Both functional mapping approaches were used because distinct and complementary information is often obtained with these two mapping methods. Ketamine, at a subanesthetic dose of 35 mg/kg, substantially increased 2-DG uptake in certain limbic cortical regions, including medial prefrontal, ventrolateral orbital, cingulate, and retrosplenial cortices. In the hippocampal formation, the subanesthetic dose of ketamine induced prominent increases in 2-DG uptake in the dentate gyrus, CA-3 stratum radiatum, stratum lacunosum moleculare, and presubiculum. Increased 2-DG uptake in response to 35 mg/kg ketamine was also observed in select thalamic nuclei and basolateral amygdala. Ketamine induced Fos-LI in the same limbic cortical regions that exhibited increased 2-DG uptake in response to the subanesthetic dose of the drug. However, no Fos was induced in some brain regions that showed increased 2-DG uptake, such as the hippocampal formation, anterioventral thalamic nucleus, and basolateral amygdala. Conversely, ketamine induced Fos in the paraventricular nucleus of the hypothalamus and central amygdala, although no effect of the drug on 2-DG uptake was apparent in these regions. In contrast to the increase in 2-DG uptake observed in select brain regions after the subanesthetic dose, an anesthetic dose of ketamine (100 mg/kg) produced a global suppression of 2-DG uptake. By contrast, a robust induction of Fos-LI was observed after the anesthetic dose of ketamine that was neuroanatomically identical to that produced by the subanesthetic dose. Results of the present investigation show that anesthetic and subanesthetic doses of ketamine have pronounced effects on regional brain 2-DG uptake and induction of Fos-LI. The alterations in regional brain metabolism induced by the subanesthetic dose may be relevant to effects of ketamine to induce schizophrenic-like symptoms.
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PMID:Metabolic mapping of the rat brain after subanesthetic doses of ketamine: potential relevance to schizophrenia. 951 1

Agents that antagonize the glutamatergic N-methyl-d-aspartate (NMDA) receptor, such as phenylcyclidine (PCP) and ketamine, produce a behavioral state in healthy volunteers that resembles some aspects of schizophrenia. A dysfunction in NMDA-dopaminergic interactions has been proposed as a mechanism for these behavioral effects. In this study, we examined the effects of ketamine on striatal dopamine release in healthy human subjects with a novel 11C-raclopride/PET displacement paradigm and compared these effects to administration of saline and the direct-acting dopamine agonist amphetamine. We found that the percent decreases (mean +/- SD) in specific 11C-raclopride binding from baseline for ketamine (11.2 +/- 8.9) was greater than for saline (1.9 +/- 3.7) (t = 2.4, df = 13, P = 0.003) indicating that ketamine caused increases in striatal synaptic dopamine concentrations. Ketamine-related binding changes were not significantly different than the decreases in percent change (mean +/- SD) in specific 11C-raclopride binding caused by amphetamine (15.5 +/- 6.2) (t = 1.3, df = 19, P = 0.21). Ketamine-induced changes in 11C-raclopride-specific binding were significantly correlated with induction of schizophrenia-like symptoms. The implications of this brain imaging method for studies of schizophrenia and the mechanism of action of antipsychotic drugs are discussed.
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PMID:Effects of NMDA antagonism on striatal dopamine release in healthy subjects: application of a novel PET approach. 959 4

Recently, much interest has been given to the role of glutamatergic N-methyl-D-aspartate receptors (NMDA) in sensory gating, such as prepulse inhibition (PPI) and reduction of the P50 evoked response potential (ERP). Currently, mainly animal data are available describing the role of NMDA receptors in these stimulus evaluation processes. Human data are virtually lacking and are potentially important, for instance for the understanding of sensory gating deficits observed in schizophrenia. Therefore, the effects of the NMDA antagonist ketamine, in a dose of 0.3 mg/kg i.v., on concurrent assessment of PPI and P50 reduction was studied in 18 healthy male volunteers. Ketamine was administered in a pseudo-steady state model with a subacute loading dose. In addition, the effects of ketamine on behavior, vital signs, homovanillic acid (HVA) plasma levels and secretion of cortisol and luteinizing hormone (LH) were also determined. Ketamine did not significantly alter PPI or the reduction of the P50 ERP. A small but significant increase in Brief Psychiatric Rating Scale (BPRS) total scores and BPRS composite scores "thinking disorder" and "withdrawal/retardation" was observed. Several subjects experienced visual perceptional alterations, but complex hallucinations did not occur. Ketamine induced mild analgesia and coordination problems. In addition, ketamine induced a marked rise in cortisol secretion, while LH secretion was not affected. Finally, systolic and diastolic, blood pressure and heart rate increased during ketamine infusion. Although in humans NMDA receptors may not be involved in the regulation of PPI and P50 reduction, the most likely explanation for the lack of effect of ketamine on these sensory gating paradigms is the dose used in this experiment. However, using a higher dose is hampered by the aspecificity of racemic ketamine. Future studies should use the enantiomer S-ketamine, which is more specific to NMDA receptors, to evaluate the involvement of NMDA receptors in these neurophysiological processes further.
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PMID:The effects of low dose ketamine on sensory gating, neuroendocrine secretion and behavior in healthy human subjects. 968 5

Interindividual differences in the psychotomimetic response to the N-methyl-d-aspartate receptor antagonist ketamine are commonly observed. The apolipoprotein E (APOE) epsilon 4 allele has been associated with reduced severity of positive psychotic symptoms in schizophrenia. In this study, we sought to determine if the APOE epsilon 4 allele influences the psychotomimetic response to ketamine in schizophrenics. Eighteen patients genotyped at the APOE locus underwent a double-blind infusion of ketamine and of placebo. Ketamine-induced alterations in the brief psychiatric rating scale factors were compared between schizophrenics with and without the APOE epsilon 4 allele. APOE epsilon 4+ schizophrenics displayed significantly reduced ketamine-induced psychosis, as compared to epsilon 4-patients. These preliminary data indicate that the psychotomimetic response to ketamine may be genetically influenced and may provide additional evidence that APOE may modify expression of the positive symptoms in schizophrenia.
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PMID:The apolipoprotein E epsilon 4 allele is associated with blunting of ketamine-induced psychosis in schizophrenia. A preliminary report. 977 66


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