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2. Design and methodology for a proof of mechanism study of individualized neuronavigated continuous Theta burst stimulation for auditory processing in adolescents with autism spectrum disorder.

Author

Oberman, Lindsay M., Francis, Sunday M., Beynel, Lysianne, Hynd, Megan, Jaime, Miguel, Robins, Pei L., Zhi-De Deng, Stout, Jeff, van der Veen, Jan Willem, and Lisanby, Sarah H.

Subjects
AUDITORY perception, AUTISM spectrum disorders, ACOUSTIC stimulation, FUNCTIONAL magnetic resonance imaging, NUCLEAR magnetic resonance spectroscopy, SPECIFIC language impairment in children
Abstract

It has been suggested that aberrant excitation/inhibition (E/I) balance and dysfunctional structure and function of relevant brain networks may underlie the symptoms of autism spectrum disorder (ASD). However, the nomological network linking these constructs to quantifiable measures and mechanistically relating these constructs to behavioral symptoms of ASD is lacking. Herein we describe a within-subject, controlled, proof-of-mechanism study investigating the pathophysiology of auditory/language processing in adolescents with ASD. We utilize neurophysiological and neuroimaging techniques including magnetic resonance spectroscopy (MRS), diffusion-weighted imaging (DWI), functional magnetic resonance imaging (fMRI), and magnetoencephalography (MEG) metrics of language network structure and function. Additionally, we apply a single, individually targeted session of continuous theta burst stimulation (cTBS) as an experimental probe of the impact of perturbation of the system on these neurophysiological and neuroimaging outcomes. MRS, fMRI, and MEG measures are evaluated at baseline and immediately prior to and following cTBS over the posterior superior temporal cortex (pSTC), a region involved in auditory and language processing deficits in ASD. Also, behavioral measures of ASD and language processing and DWI measures of auditory/language network structures are obtained at baseline to characterize the relationship between the neuroimaging and neurophysiological measures and baseline symptom presentation. We hypothesize that local gamma-aminobutyric acid (GABA) and glutamate concentrations (measured with MRS), and structural and functional activity and network connectivity (measured with DWI and fMRI), will significantly predict MEG indices of auditory/language processing and behavioral deficits in ASD. Furthermore, a single session of cTBS over left pSTC is hypothesized to lead to significant, acute changes in local glutamate and GABA concentration, functional activity and network connectivity, and MEG indices of auditory/language processing. We have completed the pilot phase of the study (n=20 Healthy Volunteer adults) and have begun enrollment for the main phase with adolescents with ASD (n=86; age 14-17). If successful, this study will establish a nomological network linking local E/I balance measures to functional and structural connectivity within relevant brain networks, ultimately connecting them to ASD symptoms. Furthermore, this study will inform future therapeutic trials using cTBS to treat the symptoms of ASD. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Reduced prefrontal glutamate/glutamine and (gamma)-minobutyric acid levels in major depression determined using proton magnetic resonance spectroscopy

Author

Hasler, Gregor, van der Veen, Jan Willem, Tumonis, Toni, Meyers, Noah, Shen, Jun, and Drevets, Wayne C.

Subjects
Spectrum analysis -- Usage, Depression, Mental -- Research, Depression, Mental -- Diagnosis, Depression, Mental -- Care and treatment, Glutamate -- Research, Glutamate -- Physiological aspects, GABA -- Research, GABA -- Physiological aspects, Health, Psychology and mental health
Published
2007

10. Effect of acute psychological stress on prefrontal GABA concentration determined by proton magnetic resonance spectroscopy

Author

Hasler, Gregor, van der Veen, Jan Willem, Grillon, Christian, Drevets, Wayne C., and Shen, Jun

Subjects
GABA -- Properties, Proton magnetic resonance spectroscopy -- Methods, Anxiety -- Physiological aspects, Health, Psychology and mental health
Abstract

Objective: Impaired function of the central gamma-aminobutyric acid (GABA) system, which provides the brain's major inhibitory pathways, is thought to play an important role in the pathophysiology of anxiety disorders. The effect of acute psychological stress on the human GABA-ergic system is still unknown, however. The purpose of this study was to determine the effect of acute stress on prefrontal GABA levels. Method: A recently developed noninvasive magnetic resonance spectroscopy method was used to measure changes in the GABA concentration of the prefrontal cortex in 10 healthy human subjects during a threat-of-shock condition and during a safe condition (two sessions on different days). The main outcome measure was the mean GABA concentration within a 3x3x2-[cm.sup.3] voxel selected from the medial prefrontal cortex. Results: Prefrontal GABA decreased by approximately 18% in the threat-of-shock condition relative to the safe condition. This reduction was specific to GABA, since the concentrations of N-acetyl-aspartate, choline-containing compounds, and glutamate/glutamine levels obtained in the same spectra did not change significantly. Conclusions: This result appeared compatible with evidence from preclinical studies in rodents, which showed rapid presynaptic down-regulation of GABA-ergic neurotransmission in response to acute psychological stress. The molecular mechanism and functional significance of this reduced inhibitory effect of acute psychological stress in relation to impaired GABA-ergic function in anxiety disorders merit further investigation.

Published
2010

13. Cerebral phosphoester signals measured by 31P magnetic resonance spectroscopy at 3 and 7 Tesla.

Author

Li, Shizhe, van der Veen, Jan Willem, An, Li, Stolinski, JoEllyn, Johnson, Christopher, Ferraris-Araneta, Maria, Victorino, Milalynn, Tomar, Jyoti Singh, and Shen, Jun

Subjects
*NUCLEAR magnetic resonance spectroscopy, *MAGNETIC flux density, *PHOSPHOCHOLINE, *NEUROBEHAVIORAL disorders, *CELL metabolism, *SIGNAL-to-noise ratio
Abstract

Abnormal cell membrane metabolism is associated with many neuropsychiatric disorders. Free phosphomonoesters and phosphodiesters, which can be detected by in vivo 31P magnetic resonance spectroscopy (MRS), are important cell membrane building blocks. However, the quantification of phosphoesters has been highly controversial even in healthy individuals due to overlapping signals from macromolecule membrane phospholipids (MP). In this study, high signal-to-noise ratio (SNR) cerebral 31P MRS spectra were acquired from healthy volunteers at both 3 and 7 Tesla. Our results indicated that, with minimal spectral interference from MP, the [phosphocreatine (PCr)]/[phosphocholine (PC) + glycerophosphocholine (GPC)] ratio measured at 7 Tesla agreed with its value expected from biochemical constraints. In contrast, the 3 Tesla [PCr]/[PC+GPC] ratio obtained using standard spectral fitting procedures was markedly smaller than the 7 Tesla ratio and than the expected value. The analysis suggests that the commonly used spectral model for MP may fail to capture its complex spectral features at 3 Tesla, and that additional prior knowledge is necessary to reliably quantify the phosphoester signals at low magnetic field strengths when spectral overlapping is significant. [ABSTRACT FROM AUTHOR]

Published
2021
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14. Brain GABA Detection in vivo with the J-editing 1H MRS Technique: A Comprehensive Methodological Evaluation of Sensitivity Enhancement, Macromolecule Contamination and Test-Retest Reliability

Author

Shungu, Dikoma C., Mao, Xiangling, Gonzales, Robyn, Soones, Tacara N., Dyke, Jonathan P., van der Veen, Jan Willem, and Kegeles, Lawrence S.

Subjects
Adult, Male, Macromolecular Substances, Proton Magnetic Resonance Spectroscopy, Prefrontal Cortex, Reproducibility of Results, Signal Processing, Computer-Assisted, Magnetic Resonance Imaging, Sensitivity and Specificity, Article, Molecular Imaging, nervous system, Humans, Female, Algorithms, gamma-Aminobutyric Acid
Abstract

Abnormalities in brain γ-aminobutyric acid (GABA) have been implicated in various neuropsychiatric and neurological disorders. However, in vivo GABA detection by (1) H MRS presents significant challenges arising from the low brain concentration, overlap by much stronger resonances and contamination by mobile macromolecule (MM) signals. This study addresses these impediments to reliable brain GABA detection with the J-editing difference technique on a 3-T MR system in healthy human subjects by: (i) assessing the sensitivity gains attainable with an eight-channel phased-array head coil; (ii) determining the magnitude and anatomic variation of the contamination of GABA by MM; and (iii) estimating the test-retest reliability of the measurement of GABA with this method. Sensitivity gains and test-retest reliability were examined in the dorsolateral prefrontal cortex (DLPFC), whereas MM levels were compared across three cortical regions: DLPFC, the medial prefrontal cortex (MPFC) and the occipital cortex (OCC). A three-fold higher GABA detection sensitivity was attained with the eight-channel head coil compared with the standard single-channel head coil in DLPFC. Despite significant anatomical variation in GABA + MM and MM across the three brain regions (p 0.05), the contribution of MM to GABA + MM was relatively stable across the three voxels, ranging from 41% to 49%, a non-significant regional variation (p = 0.58). The test-retest reliability of GABA measurement, expressed as either the ratio to voxel tissue water (W) or to total creatine, was found to be very high for both the single-channel coil and the eight-channel phased-array coil. For the eight-channel coil, for example, Pearson's correlation coefficient of test vs. retest for GABA/W was 0.98 (R(2) = 0.96, p = 0.0007), the percentage coefficient of variation (CV) was 1.25% and the intraclass correlation coefficient (ICC) was 0.98. Similar reliability was also found for the co-edited resonance of combined glutamate and glutamine (Glx) for both coils. Copyright © 2016 John WileySons, Ltd.

Published
2016

15. Prefrontal Cortical GABA Levels in Panic Disorder Determined by Proton Magnetic Resonance Spectroscopy

Author

Hasler, Gregor, van der Veen, Jan Willem, Geraci, Marilla, Shen, Jun, Pine, Daniel, and Drevets, Wayne C.

Subjects
Adult, Brain Chemistry, Male, Psychiatric Status Rating Scales, Aspartic Acid, Magnetic Resonance Spectroscopy, Adolescent, Prefrontal Cortex, Middle Aged, Article, Choline, Young Adult, Humans, Panic Disorder, Female, Occipital Lobe, gamma-Aminobutyric Acid
Abstract

Panic disorder (PD) is hypothesized to be associated with altered function of the major inhibitory neurotransmitter, gamma-aminobutyric acid (GABA). Previous proton magnetic resonance spectroscopy (MRS) studies found lower GABA concentrations in the occipital cortex of subjects with PD relative to healthy control subjects. The current study is the first MRS study to compare GABA concentrations between unmedicated PD subjects and control subjects in the prefrontal cortex (PFC).Unmedicated subjects with PD (n = 17) and age- and sex-matched healthy control subjects (n = 17) were scanned on a 3 Tesla scanner using a transmit-receive head coil that provided a sufficiently homogenous radiofrequency field to obtain spectroscopic measurements in the dorsomedial/dorsal anterolateral and ventromedial areas of the PFC.The prefrontal cortical GABA concentrations did not differ significantly between PD subjects and control subjects. There also was no statistically significant difference in glutamate/glutamine (Glx), choline, or N-acetyl aspartate concentrations.The previously reported finding of reduced GABA concentrations in the occipital cortex of PD subjects does not appear to extend to the PFC.

Published
2008

16. Prefrontal GABA Levels Measured With Magnetic Resonance Spectroscopy in Patients With Psychosis and Unaffected Siblings.

Author

Marenco, Stefano, Meyer, Christian, Kuo, Susan, van der Veen, Jan Willem, Shen, Jun, DeJong, Katherine, Barnett, Alan S., Apud, Jose A., Dickinson, Dwight, Weinberger, Daniel R., and Berman, Karen F.

Subjects
GABAERGIC neurons, PSYCHOSES, ANTIPSYCHOTIC agents, PEOPLE with schizophrenia, DRUG efficacy, PATIENTS, DRUG therapy for psychoses, SIBLINGS, GABA, LIMBIC system, NUCLEAR magnetic resonance spectroscopy, CASE-control method, PHARMACODYNAMICS
Abstract

Objective: The authors sought to compare GABA levels in treated and untreated patients with psychosis with levels in their unaffected siblings and healthy control subjects, and to assess the effects of antipsychotic medications on GABA levels.Method: GABA+ levels (i.e., including signal from unrelated proteins or macromolecules) referenced to creatine or water were studied with J-edited proton spectroscopy in the dorsal anterior cingulate cortex of 289 individuals: 184 healthy control subjects, 83 treated patients with psychosis, 25 untreated patients, 31 unaffected siblings, and 17 patients studied both while off all medications and while on a single antipsychotic.Results: GABA+ levels in the dorsal anterior cingulate did not differ between untreated patients and healthy controls. For treated patients, levels were modestly lower for GABA+/creatine but did not differ for GABA+/water compared with healthy controls. For both GABA+ measures, unaffected siblings had significantly lower levels compared with controls. GABA+/creatine showed a modest degree of familiality (intraclass correlation=0.36). Antipsychotic dosage was negatively correlated with GABA+ levels, but the on-off medication studies indicated no difference in GABA+ levels on antipsychotics compared with off antipsychotics.Conclusions: GABA+/creatine in the dorsal anterior cingulate may constitute an intermediate phenotype with low effect size for psychosis, but GABA+/water measures do not fully support this conclusion. Low GABA+ levels in unaffected siblings could suggest a genetic association, but the failure to find consistent evidence of this phenotype in the patients themselves weakens genetic inference on risk for psychosis. Replication in independent samples of siblings is warranted to confirm the potential genetic risk association. [ABSTRACT FROM AUTHOR]

Published
2016
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17. Associations between prefrontal γ-aminobutyric acid concentration and the tryptophan hydroxylase isoform 2 gene, a panic disorder risk allele in women.

Author

Preuss, Nora, Salehi, Basira, van der Veen, Jan Willem, Shen, Jun, Drevets, Wayne C., Hodgkinson, Colin, Goldman, David, and Hasler, Gregor

Subjects
AMINOBUTYRIC acid, TRYPTOPHAN hydroxylase, PANIC disorders, ALLELES, DISEASES in women, SEROTONINERGIC mechanisms, PREFRONTAL cortex, MENTAL illness risk factors
Abstract

Associations between the central serotonergic and γ-aminobutyric acid (GABA) systems play key roles in the prefrontal cortical regulation of emotion and cognition and in the pathophysiology and pharmacotherapy of highly prevalent psychiatric disorders. The goal of this study was to test the effects of common variants of the tryptophan hydroxylase isoform 2 (TPH2) gene on GABA concentration in the prefrontal cortex (PFC) using magnetic resonance spectroscopy. In this study involving 64 individuals, we examined the associations between prefrontal cortical GABA concentration and 12 single nucleotide polymorphisms (SNPs) spanning the TPH2 gene, including rs4570625 (−703 G/T SNP), a potentially functional TPH2 polymorphism that has been associated with decreased TPH2 mRNA expression and panic disorder. Our results revealed a significant association between increased GABA concentration in the PFC and the T-allele frequencies of two TPH2 SNPs, namely rs4570625 (−703 G/T) and rs2129575 (p⩽0.0004) and the C-allele frequency of one TPH2 SNP, namely rs1386491 (p = 0.0003) in female subjects. We concluded that rs4570625 (−703 G/T), rs2129575 and rs1386491 play a significant role in GABAergic neurotransmission and may contribute to the sex-specific dysfunction of the GABAergic system in the PFC. [ABSTRACT FROM AUTHOR]

Published
2013
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18. Age-modulated association between prefrontal NAA and the BDNF gene.

Author

Salehi, Basira, Preuss, Nora, van der Veen, Jan Willem, Shen, Jun, Neumeister, Alexander, Drevets, Wayne C., Hodgkinson, Colin, Goldman, David, Wendland, Jens R., Singleton, Andrew, Gibbs, Jesse R., Cookson, Mark R., and Hasler, Gregor

Subjects
BRAIN-derived neurotrophic factor, ASPARTATES, PATHOLOGICAL psychology, NEUROLOGICAL errors, ANTIDEPRESSANTS, SINGLE nucleotide polymorphisms, PROTON magnetic resonance spectroscopy
Abstract

Brain-derived neurotrophic factor (BDNF) has been implicated in the pathophysiology of psychiatric and neurological disorders and in the mechanisms of antidepressant pharmacotherapy. Psychiatric and neurological conditions have also been associated with reduced brain levels of N-acetyl-aspartate (NAA), which has been used as a putative marker of neural integrity. However, few studies have explored the relationship between BDNF polymorphisms and NAA levels directly. Here, we present data from a single-voxel proton magnetic resonance spectroscopy study of 64 individuals and explore the relationship between BDNF polymorphisms and prefrontal NAA level. Our results indicate an association between a single nucleotide polymorphism (SNP) within BDNF, known as rs1519480, and reduced NAA level (p = 0.023). NAA levels were further predicted by age and Asian ancestry. There was a significant rs1519480 × age interaction on NAA level (p = 0.031). Specifically, the effect of rs1519480 on NAA level became significant at age ⩾34.17 yr. NAA level decreased with advancing age for genotype TT (p = 0.001) but not for genotype CT (p = 0.82) or CC (p = 0.34). Additional in silico analysis of 142 post-mortem brain samples revealed an association between the same SNP and reduced BDNF mRNA expression in the prefrontal cortex. The rs1519480 SNP influences BDNF mRNA expression and has an impact on prefrontal NAA level over time. This genetic mechanism may contribute to inter-individual variation in cognitive performance seen during normal ageing, as well as contributing to the risk for developing psychiatric and neurological conditions. [ABSTRACT FROM AUTHOR]

Published
2013
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19. An investigation of amino-acid neurotransmitters as potential predictors of clinical improvement to ketamine in depression.

Author

Salvadore, Giacomo, van der Veen, Jan Willem, Zhang, Yan, Marenco, Stefano, Machado-Vieira, Rodrigo, Baumann, Jacqueline, Ibrahim, Lobna A., Luckenbaugh, David A., Shen, Jun, Drevets, Wayne C., and Zarate, Carlos A.

Subjects
MENTAL depression, THERAPEUTICS, KETAMINE, AMINO acid neurotransmitters, PATHOLOGICAL physiology, PROTON magnetic resonance spectroscopy, METHYL aspartate, BIOMARKERS, NEUROGLIA
Abstract

Amino-acid neurotransmitter system dysfunction plays a major role in the pathophysiology of major depressive disorder (MDD). We used proton magnetic resonance spectroscopy (1H-MRS) to investigate whether prefrontal levels of amino-acid neurotransmitters predict antidepressant response to a single intravenous infusion of the N-methyl-d-aspartate (NMDA) antagonist ketamine in MDD patients. Fourteen drug-free patients with MDD were scanned 1–3 d before receiving a single intravenous infusion of ketamine (0.5 mg/kg). We measured gamma aminobutyric acid (GABA), glutamate, and Glx/glutamate ratio (a surrogate marker of glutamine) in the ventromedial prefrontal cortex (VM-PFC) and the dorsomedial/dorsal anterolateral prefrontal cortex (DM/DA-PFC). Correlation analyses were conducted to determine whether pretreatment GABA, glutamate, or Glx/glutamate ratio predicted change in depressive and anxiety symptoms 230 min after ketamine administration. Pretreatment GABA or glutamate did not correlate with improved depressive symptoms in either of the two regions of interest (p>0.1); pretreatment Glx/glutamate ratio in the DM/DA-PFC was negatively correlated with improvement in depressive symptoms [rs(11)=−0.57, p<0.05]. Pretreatment glutamate levels in the VM-PFC were positively correlated with improvement in anxiety symptoms [rs(11)=0.57, p<0.05]. The findings suggest an association between lower Glx/glutamate ratio and greater improvement in response to ketamine treatment. Because glutamine is mainly contained in glia, the decreased Glx/glutamate ratio observed in this study may reflect the reduction in glial cells found in the same regions in post-mortem studies of individuals with MDD, and suggests that the presence of this neuropathological construct may be associated with antidepressant responsiveness to ketamine. [ABSTRACT FROM AUTHOR]

Published
2012
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20. Reproducibility of prefrontal γ-aminobutyric acid measurements with J-edited spectroscopy.

Author

Geramita, Matthew, van der Veen, Jan Willem, Barnett, Alan S., Savostyanova, Antonina A., Shen, Jun, Weinberger, Daniel R., and Marenco, Stefano

Abstract

γ-Aminobutyric acid (GABA) is the chief inhibitory neurotransmitter of the human brain, and GABA-ergic dysfunction has been implicated in a variety of neuropsychiatric disorders. Recent MRS techniques have allowed the quantification of GABA concentrations in vivo, and could therefore provide biologically relevant information. Few reports have formally characterized the reproducibility of these techniques, and differences in field strength, acquisition and processing parameters may result in large differences in measured GABA values. Here, we used a J-edited, single-voxel spectroscopy method of measurement of GABA + macromolecules (GABA + ) in the anterior cingulate cortex (ACC) and right frontal white matter (rFWM) at 3 T. We measured the coefficient of variation within subjects (CVw) and intra-class correlation coefficients on two repeated scans obtained from 10 healthy volunteers with processing procedures developed in-house for the quantification of GABA + and other major metabolites. In addition, by segmenting the spectroscopic voxel into cerebrospinal fluid, gray matter and white matter, and employing a linear regression technique to extrapolate metabolite values to pure gray and white matter, we determined metabolite differences between gray and white matter in ACC and rFWM. CVw values for GABA + /creatine, GABA + /H2O, GABA + , creatine, partially co-edited glutamate + glutamine (Glx)/creatine, partially co-edited Glx and N-acetylaspartic acid (NAA)/creatine were all below 12% in both ACC and rFWM. After extrapolation to pure gray and pure white matter, CVw values for all metabolites were below 16%. We found metabolite ratios between gray and white matter for GABA + /creatine, GABA + , creatine, partially co-edited Glx and NAA/creatine to be 0.88 ± 0.21 (standard deviation), 1.52 ± 0.32, 1.77 ± 0.4, 2.69 ± 0.74 and 0.70 ± 0.05, respectively. This study validates a reproducible method for the quantification of brain metabolites, and provides information on gray/white matter differences that may be important in the interpretation of results in clinical populations. Published in 2011 by John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published
2011
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21. Genetic Association of ErbB4 and Human Cortical GABA Levels In Vivo.

Author

Marenco, Stefano, Geramita, Matthew, van der Veen, Jan Willem, Barnett, Alan S., Kolachana, Bhaskar, Jun Shen, Weinberger, Daniel R., and Law, Amanda J.

Subjects
HUMAN genetic variation, EVOKED potentials (Electrophysiology), HIGHER nervous activity, GABA, GENETIC polymorphisms, INTERNEURONS
Abstract

NRG1-ErbB4 signaling controls inhibitory circuit development in the mammalian cortex through ErbB4-dependent regulation of GABAergic interneuron connectivity. Common genetic variation in ErbB4 (rs7598440) has been associated with ErbB4 messenger RNA levels in the human cortex and risk for schizophrenia. Recent work demonstrates that Erbb4 is expressed exclusively on inhibitory interneurons, where its presence on parvalbumin-positive cells mediates the effects of NRG1 on inhibitory circuit formation in the cortex. We therefore hypothesized that genetic variation in ErbB4 at rs7598440 would impact indices of GABA concentration in the human cortex. We tested this hypothesis in 116 healthy volunteers by measuring GABA and GLX (glutamate+glutamine) with proton magnetic resonance spectroscopy in the dorsal anterior cingulate gyrus. ErbB4 rs7598440 genotype significantly predicted cortical GABA concentration ( p = 0.014), but not GLX ( p = 0.51), with A allele carriers having higher GABA as predicted by the allelic impact on ErbB4 expression. These data establish an association of ErbB4 and GABA in human brain and have implications for understanding the pathogenesis of schizophrenia and other psychiatric disorders. [ABSTRACT FROM AUTHOR]

Published
2011
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22. Genetic Modulation of GABA Levels in the Anterior Cingulate Cortex by GAD1 and COMT.

Author

Marenco, Stefano, Savostyanova, Antonina A., van der Veen, Jan Willem, Geramita, Matthew, Stern, Alexa, Barnett, Alan S., Kolachana, Bhaskar, Radulescu, Eugenia, Fengyu Zhang, Callicott, Joseph H., Straub, Richard E., Jun Shen, and Weinberger, Daniel R.

Subjects
AMINOBUTYRIC acid, GABA, GENETIC polymorphisms, SCHIZOPHRENIA, PROTON magnetic resonance spectroscopy, HUMAN genetic variation
Abstract

γ-Aminobutyric acid (GABA)-ergic transmission is critical for normal cortical function and is likely abnormal in a variety of neuropsychiatric disorders. We tested the in vivo effects of variations in two genes implicated in GABA function on GABA concentrations in prefrontal cortex of living subjects: glutamic acid decarboxylase 1 (GAD1), which encodes GAD67, and catechol-o-methyltransferase (COMT), which regulates synaptic dopamine in the cortex. We studied six single nucleotide polymorphisms (SNPs) in GAD1 previously associated with risk for schizophrenia or cognitive dysfunction and the val158met polymorphism in COMT in 116 healthy volunteers using proton magnetic resonance spectroscopy. Two of the GAD1 SNPs (rs1978340 (p=0.005) and rs769390 (p=0.004)) showed effects on GABA levels as did COMT val158met (p=0.04). We then tested three SNPs in GAD1 (rs1978340, rs11542313, and rs769390) for interaction with COMT val158met based on previous clinical results. In this model, rs11542313 and COMT val158met showed significant main effects (p=0.001 and 0.003, respectively) and a trend toward a significant interaction (p=0.05). Interestingly, GAD1 risk alleles for schizophrenia were associated with higher GABA/Cre, and Val-Val homozygotes had high GABA/Cre levels when on a GAD1 risk genotype background (N=6). These results support the importance of genetic variation in GAD1 and COMT in regulating prefrontal cortical GABA function. The directionality of the effects, however, is inconsistent with earlier evidence of decreased GABA activity in schizophrenia. [ABSTRACT FROM AUTHOR]

Published
2010
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23. Prefrontal Cortical Gamma-Aminobutyric Acid Levels in Panic Disorder Determined by Proton Magnetic Resonance Spectroscopy

Author

Hasler, Gregor, van der Veen, Jan Willem, Geraci, Marilla, Shen, Jun, Pine, Daniel, and Drevets, Wayne C.

Subjects
*PREFRONTAL cortex, *AMINOBUTYRIC acid, *PANIC disorder diagnosis, *PROTON magnetic resonance spectroscopy, *NEUROTRANSMITTERS, *GLUTAMIC acid, *GABA
Abstract

Background: Panic disorder (PD) is hypothesized to be associated with altered function of the major inhibitory neurotransmitter, gamma-aminobutyric acid (GABA). Previous proton magnetic resonance spectroscopy (MRS) studies found lower GABA concentrations in the occipital cortex of subjects with PD relative to healthy control subjects. The current study is the first MRS study to compare GABA concentrations between unmedicated PD subjects and control subjects in the prefrontal cortex (PFC). Methods: Unmedicated subjects with PD (n = 17) and age- and sex-matched healthy control subjects (n = 17) were scanned on a 3 Tesla scanner using a transmit-receive head coil that provided a sufficiently homogenous radiofrequency field to obtain spectroscopic measurements in the dorsomedial/dorsal anterolateral and ventromedial areas of the PFC. Results: The prefrontal cortical GABA concentrations did not differ significantly between PD subjects and control subjects. There also was no statistically significant difference in glutamate/glutamine (Glx), choline, or N-acetyl aspartate concentrations. Conclusions: The previously reported finding of reduced GABA concentrations in the occipital cortex of PD subjects does not appear to extend to the PFC. [Copyright &y& Elsevier]

Published
2009
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24. Ketogenic diet reduces alcohol withdrawal symptoms in humans and alcohol intake in rodents.

Author

Wiers, Corinde E., Vendruscolo, Leandro F., van der Veen, Jan-Willem, Manza, Peter, Shokri-Kojori, Ehsan, Kroll, Danielle S., Feldman, Dana E., McPherson, Katherine L., Biesecker, Catherine L., Rui Zhang, Herman, Kimberly, Elvig, Sophie K., Vendruscolo, Janaina C. M., Turner, Sara A., Shanna Yang, Schwandt, Melanie, Tomasi, Dardo, Cervenka, Mackenzie C., Fink-Jensen, Anders, and Benveniste, Helene

Subjects
*OPERANT behavior, *ALCOHOL, *ALCOHOL withdrawal syndrome, *REDUCING diets, *KETOGENIC diet
Abstract

The article presents a study of the beneficial effects of ketogenic diet (KD) on alcohol withdrawal symptoms in humans and alcohol intake in rodents. Topics discussed include the mortality rate and the physiological consequences of alcohol use disorder (AUD), the emphasis of the study on the dorsal anterior cingulate cortex (dACC) for functional magnetic resonance imaging (fMRI) and MRI, and ability of KD to reduce neuroinflammation.

Published
2021
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25. Normal Prefrontal Gamma-Aminobutyric Acid Levels in Remitted Depressed Subjects Determined by Proton Magnetic Resonance Spectroscopy

Author

Hasler, Gregor, Neumeister, Alexander, van der Veen, Jan Willem, Tumonis, Toni, Bain, Earle E., Shen, Jun, Drevets, Wayne C., and Charney, Dennis S.

Subjects
*BRAIN, *GABA, *MENTAL depression, *PATIENTS, *NEUROLOGICAL disorders
Abstract

Background: There is growing evidence that the brain gamma-aminobutyric acid (GABA) system is involved in depression. Lowered plasma GABA levels were identified as a traitlike abnormality found in patients with remitted unipolar depression and in healthy first-degree relatives of patients with unipolar depression. Major depressive disorder has been associated with neuroimaging and neuropathological abnormalities in the prefrontal cortex by various types of evidence. As a result, the current study investigates whether GABA levels in the prefrontal cortex differ between unmedicated subjects with remitted major depressive disorder (rMDD) and healthy control subjects. Methods: Sixteen rMDD subjects and 15 healthy control subjects underwent magnetic resonance spectroscopy. We used a 3 Tesla GE whole body scanner with a homogeneous resonator coil providing a homogenous radiofrequency field and capability of obtaining measurement from the prefrontal cortex. Gamma-aminobutyric acid levels were measured in the ventromedial prefrontal cortex and dorsolateral/anterior medial prefrontal cortex. Results: There was no difference in GABA concentrations between rMDD subjects and healthy control subjects in the ventromedial prefrontal cortex and dorsolateral/anterior medial prefrontal cortex. Secondary analyses provided preliminary evidence for a negative relationship between the glutamate/glutamine (Glx)/GABA ratio and age of onset of major depression in the ventromedial prefrontal cortex. Conclusions: This result suggests that GABA levels in the prefrontal cortex, if found to be reduced in symptomatic depression, do not represent a persistent characteristic of major depression. Further research is needed to determine brain GABA levels in different brain regions, in different stages of depressive illness, and in different depressive subtypes. [Copyright &y& Elsevier]

Published
2005
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26. Impact of the Brain-Derived Neurotrophic Factor Val66Met Polymorphism on Levels of Hippocampal N-Acetyl-Aspartate Assessed by Magnetic Resonance Spectroscopic Imaging at 3 Tesla

Author

Stern, Alexa J., Savostyanova, Antonina A., Goldman, Aaron, Barnett, Alan S., van der Veen, Jan Willem C., Callicott, Joseph H., Mattay, Venkata S., Weinberger, Daniel R., and Marenco, Stefano

Subjects
*DIAGNOSTIC imaging, *NONINVASIVE diagnostic tests, *MEDICAL imaging systems, *POSITRON emission tomography
Abstract

Background: This study was conducted to corroborate prior evidence of an effect of the brain-derived neurotrophic factor (BDNF) valine (val) to methionine (met) amino acid substitution at codon 66 (val66met) polymorphism on measures of N-acetyl-aspartate (NAA) containing compounds in healthy subjects. Methods: The NAA to creatine (Cre) ratio (NAA/Cre), NAA to choline (Cho) ratio (NAA/Cho), and Cho to Cre ratio (Cho/Cre) were measured in the left and right hippocampi, left and right dorsolateral prefrontal cortices, occipital lobe, anterior cingulate, and white matter of the centrum semiovale of 69 carefully screened healthy volunteers utilizing proton magnetic resonance spectroscopic imaging (MRSI) at 3 Tesla (T). Results: Val/met subjects exhibited significantly reduced levels of left hippocampal NAA/Cre and NAA/Cho compared with val/val subjects. This effect was independent of age, IQ, number of voxels, hippocampal volume, or gray matter content in the voxels of interest. Analysis of other brain regions showed no effect of BDNF genotype on NAA measures. Conclusions: We confirmed the association between the met-BDNF variant and reduced levels of hippocampal NAA found with a similar technique at 1.5T. The consonance of our results with prior findings adds to the evidence that the BDNF val/met genotype affects hippocampal biology with implications for a variety of neuropsychiatric disorders. [Copyright &y& Elsevier]

Published
2008
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28. Pharmacokinetic effects of a single-dose nutritional ketone ester supplement on brain ketone and glucose metabolism in alcohol use disorder - a pilot study.

Author

Li X, Young AJ, Pereira-Rufino LS, Shi Z, Byanyima J, Vesslee S, Reddy R, Pond T, Elliott M, Reddy R, Doot RK, van der Veen JW, Kranzler HR, Reddy Nanga RP, Dubroff JG, and Wiers CE

Abstract

Introduction: Acute alcohol intake decreases brain glucose metabolism and increases brain uptake of acetate, a metabolite of alcohol. Individuals with alcohol use disorder (AUD) show elevated brain acetate metabolism at the expense of glucose, a shift in energy utilization that persists beyond acute intoxication. We recently reported that nutritional ketosis and administration of ketone bodies as an alternative energy source to glucose reduce alcohol withdrawal severity and alcohol craving in AUD. However, the regional effects of nutritional ketosis on brain ketone (beta-hydroxybutyrate [BHB]) and glucose metabolism have not been studied in AUD., Methods: Five participants with AUD underwent two magnetic resonance imaging (MRI) sessions and 4 participants with AUD underwent two positron emission tomography (PET) sessions with 18 F-fluorodeoxyglucose. All participants completed one session without KE intervention and one session during which they consumed 395 mg/kg (R) -3-hydroxybutyl (R) -3-hydroxybutyrate Ketone Ester (KE) intervention (TdeltaS Global Inc.) before the scan. The order of the sessions was randomized. For the PET cohort, blood glucose and ketone levels were assessed and voxel-wise maps of the cerebral metabolic rate of glucose (CMRglc) were computed at each session. For the MRI cohort, brain anterior cingulate BHB levels were assessed using magnetic resonance spectroscopy., Results: A single dose of KE elevated blood BHB and anterior cingulate BHB levels compared to baseline. Moreover, blood glucose levels were lower with KE than baseline, and whole-brain CMRglc decreased by 17%. The largest KE-induced CMRglc reductions were in the frontal, occipital, cortex, and anterior cingulate cortices., Conclusion: These findings provide preliminary evidence that KE administration elevates ketone and reduces brain glucose metabolism in humans, consistent with a shift from glucose to ketones as a brain energy source. Average reductions in CMRglc of 17% are similar to global average reductions documented with administration of 0.25-0.5 g/kg of alcohol. Documenting the clinical and neurometabolic effects of nutritional ketosis will yield fundamental knowledge as to its potential beneficial effects as a treatment for AUD and its underlying neural mechanisms.

Published
2023
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29. Cerebral phosphoester signals measured by 31P magnetic resonance spectroscopy at 3 and 7 Tesla.

Author

Li S, van der Veen JW, An L, Stolinski J, Johnson C, Ferraris-Araneta M, Victorino M, Tomar JS, and Shen J

Subjects
Adolescent, Adult, Aged, Brain Mapping instrumentation, Feasibility Studies, Healthy Volunteers, Humans, Magnetic Resonance Imaging instrumentation, Male, Middle Aged, Nuclear Magnetic Resonance, Biomolecular instrumentation, Phosphocreatine analysis, Phosphorus administration & dosage, Phosphorylcholine analysis, Young Adult, Brain diagnostic imaging, Brain Mapping methods, Magnetic Resonance Imaging methods, Nuclear Magnetic Resonance, Biomolecular methods
Abstract

Abnormal cell membrane metabolism is associated with many neuropsychiatric disorders. Free phosphomonoesters and phosphodiesters, which can be detected by in vivo 31P magnetic resonance spectroscopy (MRS), are important cell membrane building blocks. However, the quantification of phosphoesters has been highly controversial even in healthy individuals due to overlapping signals from macromolecule membrane phospholipids (MP). In this study, high signal-to-noise ratio (SNR) cerebral 31P MRS spectra were acquired from healthy volunteers at both 3 and 7 Tesla. Our results indicated that, with minimal spectral interference from MP, the [phosphocreatine (PCr)]/[phosphocholine (PC) + glycerophosphocholine (GPC)] ratio measured at 7 Tesla agreed with its value expected from biochemical constraints. In contrast, the 3 Tesla [PCr]/[PC+GPC] ratio obtained using standard spectral fitting procedures was markedly smaller than the 7 Tesla ratio and than the expected value. The analysis suggests that the commonly used spectral model for MP may fail to capture its complex spectral features at 3 Tesla, and that additional prior knowledge is necessary to reliably quantify the phosphoester signals at low magnetic field strengths when spectral overlapping is significant., Competing Interests: The authors have declared that no competing interests exist.

Published
2021
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30. Oxidative phosphorylation in creatine transporter deficiency.

Author

Li S, Bianconi S, van der Veen JW, Dang Do A, Stolinski J, Cecil KM, Hannah-Shmouni F, Porter FD, and Shen J

Subjects
Adolescent, Brain diagnostic imaging, Child, Child, Preschool, Creatine metabolism, Humans, Male, Membrane Transport Proteins metabolism, Metabolome, Phosphorus chemistry, Proton Magnetic Resonance Spectroscopy, Magnetic Resonance Imaging, Membrane Transport Proteins deficiency, Oxidative Phosphorylation
Abstract

X-linked creatine transporter deficiency (CTD) is one of the three types of cerebral creatine deficiency disorders. CTD arises from pathogenic variants in the X-linked gene SLC6A8. We report the first phosphorus ( 31 P) MRS study of patients with CTD, where both phosphocreatine and total creatine concentrations were found to be markedly reduced. Despite the diminished role of creatine and phosphocreatine in oxidative phosphorylation in CTD, we found no elevation of lactate or lowered pH, indicating that the brain energy supply still largely relied on oxidative metabolism. Our results suggest that mitochondrial function is a potential therapeutic target for CTD., (© 2020 John Wiley & Sons, Ltd.)

Published
2021
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31. Parameterization of metabolite and macromolecule contributions in interrelated MR spectra of human brain using multidimensional modeling.

Author

Hoefemann M, Bolliger CS, Chong DGQ, van der Veen JW, and Kreis R

Subjects
Adult, Databases as Topic, Female, Humans, Male, Brain diagnostic imaging, Brain metabolism, Macromolecular Substances metabolism, Magnetic Resonance Spectroscopy, Metabolome, Models, Biological
Abstract

Macromolecular signals are crucial constituents of short echo-time 1 H MR spectra with potential clinical implications in themselves as well as essential ramifications for the quantification of the usually targeted metabolites. Their parameterization, needed for general fitting models, is difficult because of their unknown composition. Here, a macromolecular signal parameterization together with metabolite signal quantification including relaxation properties is investigated by multidimensional modeling of interrelated 2DJ inversion-recovery (2DJ-IR) datasets. Simultaneous and iterative procedures for defining the macromolecular background (MMBG) as mono-exponentially or generally decaying signals over TE are evaluated. Varying prior knowledge and restrictions in the metabolite evaluation are tested to examine their impact on results and fitting stability for two sets of three-dimensional spectra acquired with metabolite-cycled PRESS from cerebral gray and white matter locations. One dataset was used for model optimization, and also examining the influence of prior knowledge on estimated parameters. The most promising model was applied to a second dataset. It turned out that the mono-exponential decay model appears to be inadequate to represent TE-dependent signal features of the MMBG. TE-adapted MMBG spectra were therefore determined. For a reliable overall quantification of implicated metabolite concentrations and relaxation times, a general fitting model had to be constrained in terms of the number of fitting variables and the allowed parameter space. With such a model in place, fitting precision for metabolite contents and relaxation times was excellent, while fitting accuracy is difficult to judge and bias was likely influenced by the type of fitting constraints enforced. In summary, the parameterization of metabolite and macromolecule contributions in interrelated MR spectra has been examined by using multidimensional modeling on complex 2DJ-IR datasets. A tightly restricted model allows fitting of individual subject data with high fitting precision documented in small Cramér-Rao lower bounds, good repeatability values and a relatively small spread of estimated concentration and relaxation values for a healthy subject cohort., (© 2020 John Wiley & Sons, Ltd.)

Published
2020
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32. Retrospective correction of frequency drift in spectral editing: The GABA editing example.

Author

van der Veen JW, Marenco S, Berman KF, and Shen J

Subjects
Aspartic Acid analogs & derivatives, Aspartic Acid metabolism, Creatine metabolism, Glutamic Acid metabolism, Humans, Metabolome, Retrospective Studies, White Matter metabolism, Magnetic Resonance Spectroscopy, gamma-Aminobutyric Acid metabolism
Abstract

GABA levels can be measured using proton MRS with a two-step editing sequence. However due to the low concentration of GABA, long acquisition time is usually needed to achieve sufficient SNR to detect small differences in many psychiatric disorders. During this long scan time the frequency offset of the measured voxel can change because of magnetic field drift and patient movement. This drift will change the frequency of the editing pulse relative to that of metabolites, leading to errors in quantification. In this article we describe a retrospective method to correct for frequency drift in spectral editing. A series of reference signals for each metabolite was generated for a range of frequency offsets and then averaged together based on the history of frequency changes over the scan. These customized basis sets were used to fit the in vivo data. Our results demonstrate the effectiveness of the correction method and the remarkable robustness of a GABA editing technique with a top hat editing profile in the presence of frequency drift., (Published 2017. This article is a U.S. Government work and is in the public domain in the USA.)

Published
2017
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33. Brain γ-aminobutyric acid (GABA) detection in vivo with the J-editing (1) H MRS technique: a comprehensive methodological evaluation of sensitivity enhancement, macromolecule contamination and test-retest reliability.

Author

Shungu DC, Mao X, Gonzales R, Soones TN, Dyke JP, van der Veen JW, and Kegeles LS

Subjects
Adult, Female, Humans, Macromolecular Substances analysis, Macromolecular Substances chemistry, Male, Molecular Imaging methods, Reproducibility of Results, Sensitivity and Specificity, Algorithms, Magnetic Resonance Imaging methods, Prefrontal Cortex chemistry, Proton Magnetic Resonance Spectroscopy methods, Signal Processing, Computer-Assisted, gamma-Aminobutyric Acid analysis
Abstract

Abnormalities in brain γ-aminobutyric acid (GABA) have been implicated in various neuropsychiatric and neurological disorders. However, in vivo GABA detection by (1) H MRS presents significant challenges arising from the low brain concentration, overlap by much stronger resonances and contamination by mobile macromolecule (MM) signals. This study addresses these impediments to reliable brain GABA detection with the J-editing difference technique on a 3-T MR system in healthy human subjects by: (i) assessing the sensitivity gains attainable with an eight-channel phased-array head coil; (ii) determining the magnitude and anatomic variation of the contamination of GABA by MM; and (iii) estimating the test-retest reliability of the measurement of GABA with this method. Sensitivity gains and test-retest reliability were examined in the dorsolateral prefrontal cortex (DLPFC), whereas MM levels were compared across three cortical regions: DLPFC, the medial prefrontal cortex (MPFC) and the occipital cortex (OCC). A three-fold higher GABA detection sensitivity was attained with the eight-channel head coil compared with the standard single-channel head coil in DLPFC. Despite significant anatomical variation in GABA + MM and MM across the three brain regions (p < 0.05), the contribution of MM to GABA + MM was relatively stable across the three voxels, ranging from 41% to 49%, a non-significant regional variation (p = 0.58). The test-retest reliability of GABA measurement, expressed as either the ratio to voxel tissue water (W) or to total creatine, was found to be very high for both the single-channel coil and the eight-channel phased-array coil. For the eight-channel coil, for example, Pearson's correlation coefficient of test vs. retest for GABA/W was 0.98 (R(2)  = 0.96, p = 0.0007), the percentage coefficient of variation (CV) was 1.25% and the intraclass correlation coefficient (ICC) was 0.98. Similar reliability was also found for the co-edited resonance of combined glutamate and glutamine (Glx) for both coils. Copyright © 2016 John Wiley & Sons, Ltd., (Copyright © 2016 John Wiley & Sons, Ltd.)

Published
2016
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34. Randomized double-blind placebo-controlled trial of lithium in youths with severe mood dysregulation.

Author

Dickstein DP, Towbin KE, Van Der Veen JW, Rich BA, Brotman MA, Knopf L, Onelio L, Pine DS, and Leibenluft E

Subjects
Adolescent, Antimanic Agents administration & dosage, Antimanic Agents blood, Aspartic Acid analogs & derivatives, Aspartic Acid metabolism, Attention Deficit Disorder with Hyperactivity diagnosis, Attention Deficit Disorder with Hyperactivity drug therapy, Attention Deficit Disorder with Hyperactivity physiopathology, Attention Deficit Disorder with Hyperactivity psychology, Bipolar Disorder diagnosis, Bipolar Disorder drug therapy, Bipolar Disorder physiopathology, Bipolar Disorder psychology, Child, Creatine metabolism, Diagnosis, Differential, Double-Blind Method, Female, Glutamine metabolism, Humans, Inositol metabolism, Lithium Carbonate administration & dosage, Lithium Carbonate blood, Magnetic Resonance Spectroscopy, Male, Mood Disorders diagnosis, Mood Disorders physiopathology, Mood Disorders psychology, Single-Blind Method, Antimanic Agents therapeutic use, Lithium Carbonate therapeutic use, Mood Disorders drug therapy
Abstract

Objective: The diagnosis and treatment of youth with severe nonepisodic irritability and hyperarousal, a syndrome defined as severe mood dysregulation (SMD) by Leibenluft, has been the focus of increasing concern. We conducted the first randomized double-blind, placebo-controlled trial in SMD youth, choosing lithium on the basis of its potential in treating irritability and aggression and neuro-metabolic effects., Methods: SMD youths 7-17 years were tapered off their medications. Those who continued to meet SMD criteria after a 2-week, single-blind, placebo run-in were randomized to a 6-week double-blind trial of either lithium (n = 14) or placebo (n = 11). Clinical outcome measures were: (1) Clinical Global Impressions-Improvement (CGI-I) score less than 4 at trial's end and (2) the Positive and Negative Syndrome Scale (PANSS) factor 4 score. Magnetic resonance spectroscopy (MRS) outcome measures were myoinositol (mI), N-acetyl-aspartate (NAA), and combined glutamate/glutamine (GLX), all referenced to creatine (Cr)., Results: In all, 45% (n = 20/45) of SMD youths were not randomized due to significant clinical improvement during the placebo run-in. Among randomized patients, there were no significant between-group differences in either clinical or MRS outcome measures., Conclusion: Our study suggests that although lithium may not result in significant clinical or neurometabolic alterations in SMD youths, further SMD treatment trials are warranted given its prevalence.

Published
2009
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35. Reduced prefrontal glutamate/glutamine and gamma-aminobutyric acid levels in major depression determined using proton magnetic resonance spectroscopy.

Author

Hasler G, van der Veen JW, Tumonis T, Meyers N, Shen J, and Drevets WC

Subjects
Adult, Ambulatory Care, Cell Count, Cross-Sectional Studies, Depressive Disorder, Major physiopathology, Female, Glutamic Acid analysis, Glutamine analysis, Humans, Male, Middle Aged, Neuroglia metabolism, Neuroglia pathology, Prefrontal Cortex chemistry, Prefrontal Cortex physiopathology, gamma-Aminobutyric Acid analysis, Depressive Disorder, Major diagnosis, Depressive Disorder, Major metabolism, Glutamic Acid metabolism, Glutamine metabolism, Magnetic Resonance Spectroscopy statistics & numerical data, Prefrontal Cortex metabolism, gamma-Aminobutyric Acid metabolism
Abstract

Context: Increasing evidence indicates that major depressive disorder (MDD) is associated with altered function of the major excitatory and inhibitory neurotransmitters glutamate and gamma-aminobutyric acid (GABA), respectively. A recently developed magnetic resonance spectroscopy method allows for reliable measurement of glutamate/glutamine (Glx) and GABA concentrations in prefrontal brain regions that have been implicated in the pathophysiologic mechanisms of MDD by studies using other neuroimaging and postmortem techniques., Objective: To measure Glx and GABA levels in 2 regions of the prefrontal brain tissue in unmedicated adults with MDD., Design: Cross-sectional study for association., Setting: Psychiatric outpatient clinic., Participants: Twenty unmedicated, depressed patients with MDD and 20 age- and sex-matched controls. Intervention Participants underwent scanning using a 3-T whole-body scanner with a transmit-receive head coil, providing a homogeneous radiofrequency field and the capability of obtaining spectroscopic measurements in a dorsomedial/dorsal anterolateral prefrontal region of interest (ROI) and a ventromedial prefrontal ROI., Main Outcome Measures: Glx and GABA levels derived from magnetic resonance spectroscopy signals., Results: Depressed patients had reduced Glx levels in both ROIs. The GABA levels were reduced in the dorsomedial/dorsal anterolateral prefrontal ROI. Levels of GABA and Glx were positively correlated in both ROIs., Conclusions: For the first time, GABA and Glx concentrations were compared between unmedicated depressed adults and controls in prefrontal ROIs. The abnormal reductions in Glx and GABA concentrations found in the MDD sample were compatible with findings from postmortem histopathologic studies, indicating that glial cell density is reduced in the same areas in MDD.

Published
2007
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