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)

Phosphorus-31 magnetic resonance spectroscopy ((31)P-MRS) has gained much interest in schizophrenia research in recent years since it allows the non-invasive measurement of high-energy phosphates and phospholipids in vivo. However, until now only differences in metabolite concentrations between certain brain areas of schizophrenic patients and healthy controls have been examined. We investigated the influence of gender on the concentrations of different phosphorus compounds. For this purpose, well-defined volumes in the frontal lobe of 32 healthy controls and 51 schizophrenic in-patients were examined with an image selected in vivo spectroscopy (ISIS) sequence on a whole-body scanner at 1.5 T. Healthy females exhibited increased values of inorganic phosphate (P(i)) and decreased values of phosphocreatine (PCr) in comparison to their male counterparts. In schizophrenic patients such gender differences were not present. Thus, the results can be interpreted in the sense that frontal energy demanding processes are enhanced in female compared to male healthy volunteers; schizophrenia seems to reduce these gender differences.
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PMID:Frontal lobe in vivo (31)P-MRS reveals gender differences in healthy controls, not in schizophrenics. 1066 40

In vivo proton magnetic resonance spectroscopy (1H MRS) has been utilized by neuroimaging laboratories in recent years to reliably measure compounds such as N-acetylaspartate (NAA), choline (Cho), creatine (Cr), and to a lesser extent glutamate and glutamine in the human brain. To date, the most consistently replicated findings in schizophrenia are reduced NAA measures in the hippocampal regions. Since NAA is thought to be a neuronal/axonal marker and a measure of neuronal/axonal integrity, hippocampal NAA reductions have been interpreted as strong evidence for neuronal/axonal loss or dysfunction in this brain region. The evidence for neuronal loss or dysfunction based on NAA is less consistent for the frontal cortex and white matter, temporal cortex, basal ganglia, cingulate region, and thalamus in schizophrenia. Furthermore, there are no consistently replicated findings for choline or creatine alterations in any of the brain regions examined in schizophrenia. Finally, significant technical difficulties make reliable measurement of glutamine and glutamate problematic at the present time.
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PMID:Proton magnetic resonance spectroscopy of the human brain in schizophrenia. 1071 51

Recent investigations suggest that thalamic abnormalities may underlie symptom formation in schizophrenia. We previously demonstrated reduced concentrations of N-acetylaspartate (NAA) in tissue from the thalamus of schizophrenic patients using in vitro proton magnetic resonance spectroscopy (1H-MRS). In the present study, in vivo 1H-MR spectra of the left thalamus and frontal lobe were investigated in 20 patients with schizophrenia and 16 age-matched control subjects to replicate our previous postmortem findings and support the hypothesis of thalamic abnormality in schizophrenia. Schizophrenic patients showed significantly lower NAA/total creatine (Cr) and choline-containing compounds (Cho)/Cr ratios in the thalamus than control subjects, while no significant difference was found in the frontal lobe. There was no significant correlation in the schizophrenic patients between the NAA/Cr or Cho/Cr ratio and other clinical data including clinical symptoms or neuroleptic dosage. These findings may further support other studies suggesting decreased thalamic volume or neuronal number and/or thalamic dysfunction, and reduction in size of white matter tracts adjacent to the thalamus in schizophrenia, as well as our previous postmortem MRS study.
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PMID:Thalamic abnormalities in patients with schizophrenia revealed by proton magnetic resonance spectroscopy. 1082 98

31Phosphorus nuclear magnetic resonance spectroscopy (31P-MRS) has gained much interest in schizophrenia research in the last years, since it allows noninvasive measurement of high energy phosphates and phospholipids of the human brain in vivo. Thus, several studies have reported cerebral metabolic differences between patients and healthy controls as well as on lateralization effects and influences of epidemiological and psychopathological factors. This review gives a survey of the potential of 31P-MRS in schizophrenia research and summarizes and comments on the results of preceding studies. The discussion covers the reduction of phospholipids in patients in the context of the membrane phospholipid hypotheses, the question of an energetic hypometabolism in schizophrenics, and the influence of neuroleptic medication.
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PMID:[Phosphorus 31 magnetic resonance spectroscopy in schizophrenia research. Pathophysiology of cerebral metabolism of high-energy phosphate and membrane phospholipids]. 1084 10

1. The lenticula nuclei have been suggested to be the site of structural and functional abnormalities in schizophrenia. 2. Recently, several studies involving proton magnetic resonance spectroscopy (1H MRS) showed that the ratio of N-acetyl-aspartate (NAA) to choline-containing compounds (Cho) was significantly reduced in the basal ganglia region in patients with schizophrenia. 3. Simple schizophrenia is characterized by social withdrawal and affective flattening, but not by prominent catatonic, hebephrenic or paranoid features. 4. We studied, using 1H MRS, the lenticula nuclei of 10 patients with simple schizophrenia, and 10 age- and sex-matched healthy controls. 5. No differences between the patients and the controls were found in any of the measured ratios, i.e. Cho/Cr, NAA/Cr and NAA/Cho. 6. Our results suggest the normal viability of neuronal cells, as found on quantification of NAA, Cr and Cho, in the lenticular nuclei of patients with simple schizophrenia. 7. The pathophysiology of simple schizophrenia may be different from those of other types of schizophrenia.
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PMID:Proton magnetic resonance spectroscopy of lenticular nuclei in simple schizophrenia. 1095 47

A number of studies employing in vivo phosphorous-31 magnetic resonance spectroscopy (31P-MRS) have demonstrated altered measurements of frontal phospholipid and high energy phosphorus metabolism in schizophrenia. Enlargement of both the cerebroventricular system and the cortical sulci also has been reported as the most consistent pathological finding in schizophrenia by several investigators. To our knowledge, however, only two studies have simultaneously examined structural and functional aspects of the biological substrate of schizophrenia in the same patients. Moreover, they may have failed to find a significant correlation between these variables because of small sample sizes. The possible relationship between frontal lobe membrane phospholipid metabolism and ventricle-to-brain ratio (VBR) in patients with schizophrenia was investigated. In 31 schizophrenic patients, frontal lobe membrane phospholipid metabolism was measured by 31P-MRS, and VBR was measured by computed tomography (CT). Stepwise multiple regression analysis disclosed that VBR positively correlated only with increased phosphodiester (PDE) level (beta = 0.381, p = 0.0345), but with no other metabolites. This finding may provide evidence for an association between structural brain abnormality and altered frontal lobe membrane metabolism in schizophrenic patients, although the p-value of the finding is not high.
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PMID:Frontal lobe membrane phospholipid metabolism and ventricle to brain ratio in schizophrenia: preliminary 31P-MRS and CT studies. 1100 69

Proton magnetic resonance spectroscopy ((1)H-MRS) is a noninvasive technique that can quantify biochemical compounds in the brain. (1)H-MRS has been used to investigate neural structures implicated in the pathology of schizophrenia. The majority of research has revealed reduced N-acetylaspartate (NAA), an index of neuronal integrity, in frontal and temporal regions of medicated and chronically ill patients with schizophrenia. This review summarizes basic principles of (1)H-MRS, studies of frontal, temporal, subcortical, and cerebellar regions in schizophrenia. Technical and study design limitations are also discussed.
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PMID:Proton magnetic resonance spectroscopy (H-MRS) studies of schizophrenia. 1129 12

Several proton magnetic resonance spectroscopy (1H MRS) studies in schizophrenia have found reduced N-acetyl aspartate (NAA) concentrations in pre-frontal and temporal regions of the brain. Reductions in NAA may reflect abnormalities of neuronal structure (e.g. reduced neuronal density or viability) or abnormalities of neuronal function. Diffusion tensor imaging (DTI) measures diffusion anisotropy, an indicator of the structural integrity of a neuronal tract. Both techniques were used to examine the anatomical basis of pre-frontal dysfunction in schizophrenia. Ten patients with DSM-IV schizophrenia were compared with 10 healthy controls. 1H MRS and DTI were performed on a clinical MR system and analysed with a region of interest approach. NAA concentrations and diffusion anisotropy were measured in the same pre-frontal white matter region. Diffusion anisotropy was also measured in a control region (occipital white matter). 1H MRS revealed non-significant but consistently reduced NAA concentrations (by 10-15%) in the pre-frontal white matter in schizophrenic subjects. Diffusion anisotropy measures revealed no such differences between schizophrenics and controls. It is concluded that the abnormalities of 'connectivity' reported in brain-imaging studies of schizophrenia may not be attributable to structural abnormalities of white matter and that reduced NAA in the pre-frontal white matter may reflect abnormal function of structurally intact neurons.
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PMID:Diffusion tensor imaging (DTI) and proton magnetic resonance spectroscopy (1H MRS) in schizophrenic subjects and normal controls. 1138 38

N-Acetyl-aspartate (NAA), a marker of neuronal integrity, has been found to be reduced in frontal regions in schizophrenia. However, the impact of antipsychotic drug type on NAA has not been carefully evaluated. We studied outpatients with schizophrenia/schizoaffective disorders chronically treated with haloperidol or clozapine and normal controls with single-voxel 1H-MRS of the caudate nuclei and the left frontal lobe. Concentrations of NAA, choline containing compounds (Cho) and creatine plus phosphocreatine (Cre) were determined and corrected for the proportion of cerebrospinal fluid (CSF) in each voxel. The haloperidol-treated group had significantly lower CSF-uncorrected and CSF-corrected left frontal NAA than the normal controls, with the clozapine group having intermediate concentrations. The haloperidol-treated group had significantly lower CSF-uncorrected caudate NAA than the normal controls, but the three groups did not differ after correcting for CSF fraction. Performance times in the Grooved Pegboard, a measure of motor dexterity and proxy for parkinsonism, were correlated with CSF-uncorrected and CSF-corrected left frontal NAA. Demographic and illness-related variables were not related to NAA. Exposure to haloperidol-like drugs may in part account for the frontal NAA reductions previously reported in schizophrenia. Adjustment for proportion of voxel CSF should be considered in 1H-MRS studies.
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PMID:Effects of chronic haloperidol and clozapine treatments on frontal and caudate neurochemistry in schizophrenia. 1156 30

To date numerous in-vivo (31)P-MRS and in-vitro studies in schizophrenic patients have been able to demonstrate changes in their membrane phospholipid metabolism, which might be relevant for the cause and the therapeutic responsiveness of this disorder. Thus far, however, only limited studies exist regarding the specificity of these findings for schizophrenia and the effect of antipsychotic medication. The present study examined the composition of membrane phospholipids in platelets of 67 neuroleptic-free schizophrenic patients compared to healthy and psychiatric controls. In a subsample of the schizophrenic patients we determined the effect of antipsychotic treatment on the phospholipid metabolism during six-months follow up. While untreated patients showed a decrease in major membrane phospholipid components, i.e. phosphatidylcholine and phosphatidylethanolamine, when compared to control subjects, as well as an increase in their breakdown-product lysophosphatidylcholine (LPC), there was a significant reduction in LPC during three weeks of pharmacotherapy with haloperidol. After six months treatment with different antipsychotics some divergent effects on phospholipid metabolism in schizophrenic patients could be demonstrated. While in the long-term course LPC remained decreased under continuous therapy with typical neuroleptics, patients being treated with the atypical drug zotepine showed an increase in LPC compared to their baseline level before therapy. Thus, specific mechanisms of the different antipsychotic therapies on phospholipid metabolism might serve to explain the divergent findings of (31)P-MRS in medicated patients.
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PMID:[Antipsychotics and phospholipid metabolism in schizophrenia]. 1170 97


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