Your search keyword '"Van Erp, Theo GM"' showing total 299 results

51. A method for building a genome-connectome bipartite graph model.

Author

Yu, Qingbao, Chen, Jiayu, Du, Yuhui, Sui, Jing, Damaraju, Eswar, Turner, Jessica A, van Erp, Theo GM, Macciardi, Fabio, Belger, Aysenil, Ford, Judith M, McEwen, Sarah, Mathalon, Daniel H, Mueller, Bryon A, Preda, Adrian, Vaidya, Jatin, Pearlson, Godfrey D, and Calhoun, Vince D

Subjects

Brain, Humans, Magnetic Resonance Imaging, Schizophrenia, Neurosciences, Polymorphism, Single Nucleotide, Genome, Human, Models, Biological, Adult, Middle Aged, Female, Male, Young Adult, Connectome, Bipartite graph, FNC, SNPs, fMRI, Genetics, Mental Health, Human Genome, Brain Disorders, Serious Mental Illness, Clinical Research, Biomedical Imaging, 2.1 Biological and endogenous factors, Aetiology, Neurological, Mental health, Good Health and Well Being, Psychology, Cognitive Sciences, Neurology & Neurosurgery

Abstract

It has been widely shown that genomic factors influence both risk for schizophrenia and variation in functional brain connectivity. Moreover, schizophrenia is characterized by disrupted brain connectivity. In this work, we proposed a genome-connectome bipartite graph model to perform imaging genomic analysis. Functional network connectivity (FNC) was estimated after decomposing resting state functional magnetic resonance imaging data from both healthy controls (HC) and patients with schizophrenia (SZ) into spatial brain components using group independent component analysis (G-ICA). Then 83 FNC connections showing a group difference (HC vs SZ) were selected as fMRI nodes, and eighty-one schizophrenia-related single nucleotide polymorphisms (SNPs) were selected as genetic nodes respectively in the bipartite graph. Edges connecting pairs of genetic and fMRI nodes were defined based on the SNP-FNC associations across subjects evaluated by a general linear model. Results show that some SNP nodes in the bipartite graph have a high degree implying they are influential in modulating brain connectivity and may be more strongly associated with the risk of schizophrenia than other SNPs. A bi-clustering analysis detected a cluster with 15 SNPs interacting with 38 FNC connections, most of which were within or between somato-motor and visual brain areas. This suggests that the activity of these brain regions may be related to common SNPs and provides insights into the pathology of schizophrenia. The findings suggest that the SNP-FNC bipartite graph approach is a novel model to investigate genetic influences on functional brain connectivity in mental illness.

Published

2019

52. Toward Leveraging Human Connectomic Data in Large Consortia: Generalizability of fMRI-Based Brain Graphs Across Sites, Sessions, and Paradigms.

Author

Cao, Hengyi, McEwen, Sarah C, Forsyth, Jennifer K, Gee, Dylan G, Bearden, Carrie E, Addington, Jean, Goodyear, Bradley, Cadenhead, Kristin S, Mirzakhanian, Heline, Cornblatt, Barbara A, Carrión, Ricardo E, Mathalon, Daniel H, McGlashan, Thomas H, Perkins, Diana O, Belger, Aysenil, Seidman, Larry J, Thermenos, Heidi, Tsuang, Ming T, van Erp, Theo GM, Walker, Elaine F, Hamann, Stephan, Anticevic, Alan, Woods, Scott W, and Cannon, Tyrone D

Subjects

Brain, Neural Pathways, Humans, Magnetic Resonance Imaging, Emotions, Memory, Memory, Short-Term, Mental Recall, Neuropsychological Tests, Image Processing, Computer-Assisted, Adult, Female, Male, Young Adult, Memory, Episodic, Connectome, Neurosciences, Neurological, functional connectomics, generalizability theory, graph theory, multisite research, reproducibility, Psychology, Cognitive Sciences, Experimental Psychology

Abstract

While graph theoretical modeling has dramatically advanced our understanding of complex brain systems, the feasibility of aggregating connectomic data in large imaging consortia remains unclear. Here, using a battery of cognitive, emotional and resting fMRI paradigms, we investigated the generalizability of functional connectomic measures across sites and sessions. Our results revealed overall fair to excellent reliability for a majority of measures during both rest and tasks, in particular for those quantifying connectivity strength, network segregation and network integration. Processing schemes such as node definition and global signal regression (GSR) significantly affected resulting reliability, with higher reliability detected for the Power atlas (vs. AAL atlas) and data without GSR. While network diagnostics for default-mode and sensori-motor systems were consistently reliable independently of paradigm, those for higher-order cognitive systems were reliable predominantly when challenged by task. In addition, based on our present sample and after accounting for observed reliability, satisfactory statistical power can be achieved in multisite research with sample size of approximately 250 when the effect size is moderate or larger. Our findings provide empirical evidence for the generalizability of brain functional graphs in large consortia, and encourage the aggregation of connectomic measures using multisite and multisession data.

Published

2019

53. Altered Domain Functional Network Connectivity Strength and Randomness in Schizophrenia

Author

Vergara, Victor M, Damaraju, Eswar, Turner, Jessica A, Pearlson, Godfrey, Belger, Aysenil, Mathalon, Daniel H, Potkin, Steven G, Preda, Adrian, Vaidya, Jatin G, van Erp, Theo GM, McEwen, Sarah, and Calhoun, Vince D

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Neurosciences, Serious Mental Illness, Brain Disorders, Clinical Research, Schizophrenia, Mental Health, 2.1 Biological and endogenous factors, Aetiology, Neurological, Mental health, functional MRI, functional network connectivity, randomness, schizophrenia, connectivity strength function, Public Health and Health Services, Psychology, Clinical sciences

Abstract

Functional connectivity is one of the most widely used tools for investigating brain changes due to schizophrenia. Previous studies have identified abnormal functional connectivity in schizophrenia patients at the resting state brain network level. This study tests the existence of functional connectivity effects at whole brain and domain levels. Domain level refers to the integration of data from several brain networks grouped by their functional relationship. Data integration provides more consistent and accurate information compared to an individual brain network. This work considers two domain level measures: functional connectivity strength and randomness. The first measure is simply an average of connectivities within the domain. The second measure assesses the unpredictability and lack of pattern of functional connectivity within the domain. Domains with less random connectivity have higher chance of exhibiting a biologically meaningful connectivity pattern. Consistent with prior observations, individuals with schizophrenia showed aberrant domain connectivity strength between subcortical, cerebellar, and sensorial brain areas. Compared to healthy volunteers, functional connectivity between cognitive and default mode domains showed less randomness, while connectivity between default mode-sensorial areas showed more randomness in schizophrenia patients. These differences in connectivity patterns suggest deleterious rewiring trade-offs among important brain networks.

Published

2019

54. Shared Genetic Risk of Schizophrenia and Gray Matter Reduction in 6p22.1

Author

Chen, Jiayu, Calhoun, Vince D, Lin, Dongdong, Perrone-Bizzozero, Nora I, Bustillo, Juan R, Pearlson, Godfrey D, Potkin, Steven G, van Erp, Theo GM, Macciardi, Fabio, Ehrlich, Stefan, Ho, Beng-Choon, Sponheim, Scott R, Wang, Lei, Stephen, Julia M, Mayer, Andrew R, Hanlon, Faith M, Jung, Rex E, Clementz, Brett A, Keshavan, Matcheri S, Gershon, Elliot S, Sweeney, John A, Tamminga, Carol A, Andreassen, Ole A, Agartz, Ingrid, Westlye, Lars T, Sui, Jing, Du, Yuhui, Turner, Jessica A, and Liu, Jingyu

Subjects

Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Genetics, Brain Disorders, Serious Mental Illness, Mental Health, Prevention, Neurosciences, Schizophrenia, Aetiology, 2.1 Biological and endogenous factors, Mental health, Adolescent, Adult, Chromosomes, Human, Pair 6, Female, Genetic Association Studies, Genetic Predisposition to Disease, Gray Matter, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Parietal Lobe, Polymorphism, Single Nucleotide, Prefrontal Cortex, Psychotic Disorders, Risk, Young Adult, PGC, SNP, gray matter volume, angular gyrus, supramarginal gyrus, ICA, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry, Clinical sciences

Abstract

Genetic factors are known to influence both risk for schizophrenia (SZ) and variation in brain structure. A pressing question is whether the genetic underpinnings of brain phenotype and the disorder overlap. Using multivariate analytic methods and focusing on 1,402 common single-nucleotide polymorphisms (SNPs) mapped from the Psychiatric Genomics Consortium (PGC) 108 regions, in 777 discovery samples, we identified 39 SNPs to be significantly associated with SZ-discriminating gray matter volume (GMV) reduction in inferior parietal and superior temporal regions. The findings were replicated in 609 independent samples. These 39 SNPs in chr6:28308034-28684183 (6p22.1), the most significant SZ-risk region reported by PGC, showed regulatory effects on both DNA methylation and gene expression of postmortem brain tissue and saliva. Furthermore, the regulated methylation site and gene showed significantly different levels of methylation and expression in the prefrontal cortex between cases and controls. In addition, for one regulated methylation site we observed a significant in vivo methylation-GMV association in saliva, suggesting a potential SNP-methylation-GMV pathway. Notably, the risk alleles inferred for GMV reduction from in vivo imaging are all consistent with the risk alleles for SZ inferred from postmortem data. Collectively, we provide evidence for shared genetic risk of SZ and regional GMV reduction in 6p22.1 and demonstrate potential molecular mechanisms that may drive the observed in vivo associations. This study motivates dissecting SZ-risk variants to better understand their associations with focal brain phenotypes and the complex pathophysiology of the illness.

Published

2019

55. A framework for linking resting-state chronnectome/genome features in schizophrenia: A pilot study.

Author

Rashid, Barnaly, Chen, Jiayu, Rashid, Ishtiaque, Damaraju, Eswar, Liu, Jingyu, Miller, Robyn, Agcaoglu, Oktay, van Erp, Theo GM, Lim, Kelvin O, Turner, Jessica A, Mathalon, Daniel H, Ford, Judith M, Voyvodic, James, Mueller, Bryon A, Belger, Aysenil, McEwen, Sarah, Potkin, Steven G, Preda, Adrian, Bustillo, Juan R, Pearlson, Godfrey D, and Calhoun, Vince D

Subjects

Brain, Neural Pathways, Humans, Genetic Predisposition to Disease, Magnetic Resonance Imaging, Brain Mapping, Cluster Analysis, Pilot Projects, Schizophrenia, Genomics, Polymorphism, Single Nucleotide, Adult, Female, Male, Dynamic functional connectivity, Multimodal analysis, Parallel ICA, Resting-state fMRI, Single nucleotide polymorphism, Human Genome, Serious Mental Illness, Biomedical Imaging, Genetics, Mental Health, Clinical Research, Neurosciences, Brain Disorders, 2.1 Biological and endogenous factors, Aetiology, Mental health, Medical and Health Sciences, Psychology and Cognitive Sciences, Neurology & Neurosurgery

Abstract

Multimodal, imaging-genomics techniques offer a platform for understanding genetic influences on brain abnormalities in psychiatric disorders. Such approaches utilize the information available from both imaging and genomics data and identify their association. Particularly for complex disorders such as schizophrenia, the relationship between imaging and genomic features may be better understood by incorporating additional information provided by advanced multimodal modeling. In this study, we propose a novel framework to combine features corresponding to functional magnetic resonance imaging (functional) and single nucleotide polymorphism (SNP) data from 61 schizophrenia (SZ) patients and 87 healthy controls (HC). In particular, the features for the functional and genetic modalities include dynamic (i.e., time-varying) functional network connectivity (dFNC) features and the SNP data, respectively. The dFNC features are estimated from component time-courses, obtained using group independent component analysis (ICA), by computing sliding-window functional network connectivity, and then estimating subject specific states from this dFNC data using a k-means clustering approach. For each subject, both the functional (dFNC states) and SNP data are selected as features for a parallel ICA (pICA) based imaging-genomic framework. This analysis identified a significant association between a SNP component (defined by large clusters of functionally related SNPs statistically correlated with phenotype components) and time-varying or dFNC component (defined by clusters of related connectivity links among distant brain regions distributed across discrete dynamic states, and statistically correlated with genomic components) in schizophrenia. Importantly, the polygenetic risk score (PRS) for SZ (computed as a linearly weighted sum of the genotype profiles with weights derived from the odds ratios of the psychiatric genomics consortium (PGC)) was negatively correlated with the significant dFNC component, which were mostly present within a state that exhibited a lower occupancy rate in individuals with SZ compared with HC, hence identifying a potential dFNC imaging biomarker for schizophrenia. Taken together, the current findings provide preliminary evidence for a link between dFNC measures and genetic risk, suggesting the application of dFNC patterns as biomarkers in imaging genetic association study.

Published

2019

56. Neandertal Introgression Sheds Light on Modern Human Endocranial Globularity

Author

Gunz, Philipp, Tilot, Amanda K, Wittfeld, Katharina, Teumer, Alexander, Shapland, Chin Yang, van Erp, Theo GM, Dannemann, Michael, Vernot, Benjamin, Neubauer, Simon, Guadalupe, Tulio, Fernández, Guillén, Brunner, Han G, Enard, Wolfgang, Fallon, James, Hosten, Norbert, Völker, Uwe, Profico, Antonio, Di Vincenzo, Fabio, Manzi, Giorgio, Kelso, Janet, St. Pourcain, Beate, Hublin, Jean-Jacques, Franke, Barbara, Pääbo, Svante, Macciardi, Fabio, Grabe, Hans J, and Fisher, Simon E

Subjects

Genetics, Neurosciences, 1.1 Normal biological development and functioning, Underpinning research, Neurological, Generic health relevance, Adolescent, Adult, Aged, Aged, 80 and over, Animals, Biological Evolution, Female, Fossils, Humans, Hybridization, Genetic, Male, Middle Aged, Neanderthals, Netherlands, Phenotype, Skull, Young Adult, Neandertal, basal ganglia, brain shape, cerebellum, evolution, gene expression, genetic association, homo sapiens, magnetic resonance imaging, myelination, Biological Sciences, Medical and Health Sciences, Psychology and Cognitive Sciences, Developmental Biology

Abstract

One of the features that distinguishes modern humans from our extinct relatives and ancestors is a globular shape of the braincase [1-4]. As the endocranium closely mirrors the outer shape of the brain, these differences might reflect altered neural architecture [4, 5]. However, in the absence of fossil brain tissue, the underlying neuroanatomical changes as well as their genetic bases remain elusive. To better understand the biological foundations of modern human endocranial shape, we turn to our closest extinct relatives: the Neandertals. Interbreeding between modern humans and Neandertals has resulted in introgressed fragments of Neandertal DNA in the genomes of present-day non-Africans [6, 7]. Based on shape analyses of fossil skull endocasts, we derive a measure of endocranial globularity from structural MRI scans of thousands of modern humans and study the effects of introgressed fragments of Neandertal DNA on this phenotype. We find that Neandertal alleles on chromosomes 1 and 18 are associated with reduced endocranial globularity. These alleles influence expression of two nearby genes, UBR4 and PHLPP1, which are involved in neurogenesis and myelination, respectively. Our findings show how integration of fossil skull data with archaic genomics and neuroimaging can suggest developmental mechanisms that may contribute to the unique modern human endocranial shape.

Published

2019

57. Characterizing Whole Brain Temporal Variation of Functional Connectivity via Zero and First Order Derivatives of Sliding Window Correlations

Author

Espinoza, Flor A, Vergara, Victor M, Damaraju, Eswar, Henke, Kyle G, Faghiri, Ashkan, Turner, Jessica A, Belger, Aysenil A, Ford, Judith M, McEwen, Sarah C, Mathalon, Daniel H, Mueller, Bryon A, Potkin, Steven G, Preda, Adrian, Vaidya, Jatin G, van Erp, Theo GM, and Calhoun, Vince D

Subjects

Biological Psychology, Psychology, Biomedical Imaging, Mental Health, Neurosciences, Clinical Research, Brain Disorders, Schizophrenia, Mental health, functional network connectivity, group independent component analysis, windowed correlation, derivatives, resting state fMRI, Cognitive Sciences, Biological psychology

Abstract

Brain functional connectivity has been shown to change over time during resting state fMRI experiments. Close examination of temporal changes have revealed a small set of whole-brain connectivity patterns called dynamic states. Dynamic functional network connectivity (dFNC) studies have demonstrated that it is possible to replicate the dynamic states across several resting state experiments. However, estimation of states and their temporal dynamicity still suffers from noisy and imperfect estimations. In regular dFNC implementations, states are estimated by comparing connectivity patterns through the data without considering time, in other words only zero order changes are examined. In this work we propose a method that includes first order variations of dFNC in the searching scheme of dynamic connectivity patterns. Our approach, referred to as temporal variation of functional network connectivity (tvFNC), estimates the derivative of dFNC, and then searches for reoccurring patterns of concurrent dFNC states and their derivatives. The tvFNC method is first validated using a simulated dataset and then applied to a resting-state fMRI sample including healthy controls (HC) and schizophrenia (SZ) patients and compared to the standard dFNC approach. Our dynamic approach reveals extra patterns in the connectivity derivatives complementing the already reported state patterns. State derivatives consist of additional information about increment and decrement of connectivity among brain networks not observed by the original dFNC method. The tvFNC shows more sensitivity than regular dFNC by uncovering additional FNC differences between the HC and SZ groups in each state. In summary, the tvFNC method provides a new and enhanced approach to examine time-varying functional connectivity.

Published

2019

58. Cortical abnormalities in youth at clinical high-risk for psychosis: Findings from the NAPLS2 cohort.

Author

Chung, Yoonho, Allswede, Dana, Addington, Jean, Bearden, Carrie E, Cadenhead, Kristin, Cornblatt, Barbara, Mathalon, Daniel H, McGlashan, Thomas, Perkins, Diana, Seidman, Larry J, Tsuang, Ming, Walker, Elaine, Woods, Scott W, McEwen, Sarah, van Erp, Theo GM, Cannon, Tyrone D, and North American Prodrome Longitudinal Study (NAPLS) Consortium

Subjects

North American Prodrome Longitudinal Study (NAPLS) Consortium, Cerebral Cortex, Humans, Magnetic Resonance Imaging, Risk Factors, Cohort Studies, Longitudinal Studies, Cross-Sectional Studies, Psychotic Disorders, Adolescent, Child, Female, Male, Prodromal Symptoms, Brain development, Clinical high risk, Magnetic resonance imaging, Premorbid functioning, Psychosis, Schizophrenia, Prevention, Pediatric, Mental Health, Clinical Research, Neurosciences, Aetiology, 2.3 Psychological, social and economic factors, Mental health

Abstract

In a recent machine learning study classifying "brain age" based on cross-sectional neuroanatomical data, clinical high-risk (CHR) individuals were observed to show deviation from the normal neuromaturational pattern, which in turn was predictive of greater risk of conversion to psychosis and a pattern of stably poor functional outcome. These effects were unique to cases who were between 12 and 17 years of age when their prodromal and psychotic symptoms began, suggesting that neuroanatomical deviance observable at the point of ascertainment of a CHR syndrome marks risk for an early onset form of psychosis. In the present study, we sought to clarify the pattern of neuroanatomical deviance linked to this "early onset" form of psychosis and whether this deviance is associated with poorer premorbid functioning. T1 MRI scans from 378 CHR individuals and 190 healthy controls (HC) from the North American Prodrome Longitudinal Study (NAPLS2) were analyzed. Widespread smaller cortical volume was observed among CHR individuals compared with HC at baseline evaluation, particularly among the younger group (i.e., those who were 12 to 17 years of age). Moreover, the younger CHR individuals who converted or presented worsened clinical symptoms at follow-up (within 2 years) exhibited smaller surface area in rostral anterior cingulate, lateral and medial prefrontal regions, and parahippocampal gyrus relative to the younger CHR individuals who remitted or presented a stable pattern of prodromal symptoms at follow-up. In turn, poorer premorbid functioning in childhood was associated with smaller surface area in medial orbitofrontal, lateral frontal, rostral anterior cingulate, precuneus, and temporal regions. Together with our prior report, these results are consistent with the view that neuroanatomical deviance manifesting in early adolescence marks vulnerability to a form of psychosis presenting with poor premorbid adjustment, an earlier age of onset (generally prior to the age of 18 years), and poor long-term outcome.

Published

2019

59. Hippocampal subregion abnormalities in schizophrenia: A systematic review of structural and physiological imaging studies.

Author

Nakahara, Soichiro, Matsumoto, Mitsuyuki, and van Erp, Theo GM

Subjects

Hippocampus, Humans, Magnetic Resonance Imaging, Schizophrenia, CA1, dentate gyrus, hippocampus, psychosis, subfield

Abstract

AimThe hippocampus is considered a key region in schizophrenia pathophysiology, but the nature of hippocampal subregion abnormalities and how they contribute to disease expression remain to be fully determined. This study reviews findings from schizophrenia hippocampal subregion volumetric and physiological imaging studies published within the last decade.MethodsThe PubMed database was searched for publications on hippocampal subregion volume and physiology abnormalities in schizophrenia and their findings were reviewed.ResultsThe main replicated findings include smaller CA1 volumes and CA1 hyperactivation in schizophrenia, which may be predictive of conversion in individuals at clinical high risk of psychosis, smaller CA1 and CA4/DG volumes in first-episode schizophrenia, and more widespread smaller hippocampal subregion volumes with longer duration of illness. Several studies have reported relationships between hippocampal subregion volumes and declarative memory or symptom severity.ConclusionsTogether these studies provide support for hippocampal formation circuitry models of schizophrenia. These initial findings must be taken with caution as the scientific community is actively working on hippocampal subregion method improvement and validation. Further improvements in our understanding of the nature of hippocampal formation subregion involvement in schizophrenia will require the collection of structural and physiological imaging data at submillimeter voxel resolution, standardization and agreement of atlases, adequate control for possible confounding factors, and multi-method validation of findings. Despite the need for cautionary interpretation of the initial findings, we believe that improved localization of hippocampal subregion abnormalities in schizophrenia holds promise for the identification of disease contributing mechanisms.

Published

2018

60. Polygenic risk score, genome-wide association, and gene set analyses of cognitive domain deficits in schizophrenia.

Author

Nakahara, Soichiro, Medland, Sarah, Turner, Jessica A, Calhoun, Vince D, Lim, Kelvin O, Mueller, Bryon A, Bustillo, Juan R, O'Leary, Daniel S, Vaidya, Jatin G, McEwen, Sarah, Voyvodic, James, Belger, Aysenil, Mathalon, Daniel H, Ford, Judith M, Guffanti, Guia, Macciardi, Fabio, Potkin, Steven G, and van Erp, Theo GM

Subjects

Humans, Genetic Predisposition to Disease, Schizophrenia, Schizophrenic Psychology, Multifactorial Inheritance, Adult, Female, Male, Genome-Wide Association Study, Genetic Loci, Cognitive Dysfunction, GWAS, MCCB, Neuropsychology, PRS, Genetics, Mental Health, Brain Disorders, Human Genome, Behavioral and Social Science, Neurosciences, Serious Mental Illness, Prevention, Biotechnology, 2.1 Biological and endogenous factors, Aetiology, Mental health, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry

Abstract

This study assessed genetic contributions to six cognitive domains, identified by the MATRICS Cognitive Consensus Battery as relevant for schizophrenia, cognition-enhancing, clinical trials. Psychiatric Genomics Consortium Schizophrenia polygenic risk scores showed significant negative correlations with each cognitive domain. Genome-wide association analyses identified loci associated with attention/vigilance (rs830786 within HNF4G), verbal memory (rs67017972 near NDUFS4), and reasoning/problem solving (rs76872642 within HDAC9). Gene set analysis identified unique and shared genes across cognitive domains. These findings suggest involvement of common and unique mechanisms across cognitive domains and may contribute to the discovery of new therapeutic targets to treat cognitive deficits in schizophrenia.

Published

2018

61. A positive take on schizophrenia negative symptom scales: Converting scores between the SANS, NSA and SDS.

Author

Preda, Adrian, Nguyen, Dana D, Bustillo, Juan R, Belger, Aysenil, O'Leary, Daniel S, McEwen, Sarah, Ling, Shichun, Faziola, Lawrence, Mathalon, Daniel H, Ford, Judith M, Potkin, Steven G, FBIRN, and van Erp, Theo GM

Subjects

FBIRN, Humans, Regression Analysis, Cross-Sectional Studies, Reproducibility of Results, Schizophrenia, Psychiatric Status Rating Scales, Schizophrenic Psychology, Adult, Female, Male, Conversion, Meta-, Multi-center, Multi-site, NSA, Negative symptoms, PANSS, SANS, SDA, Clinical Research, Brain Disorders, Mental Health, 4.2 Evaluation of markers and technologies, Detection, screening and diagnosis, Mental health, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry

Abstract

AIMS:To provide quantitative conversions between commonly used scales for the assessment of negative symptoms in schizophrenia. METHOD:Linear regression analyses generated conversion equations between symptom scores from the Scale for the Assessment of Negative Symptoms (SANS), the Schedule for the Deficit Syndrome (SDS), the Positive and Negative Syndrome Scale (PANSS), or the Negative Symptoms Assessment (NSA) based on a cross sectional sample of 176 individuals with schizophrenia. Intraclass correlations assessed the rating conversion accuracy based on a separate sub-sample of 29 patients who took part in the initial study as well as an independent sample of 28 additional subjects with schizophrenia. RESULTS:Between-scale negative symptom ratings were moderately to highly correlated (r = 0.73-0.91). Intraclass correlations between the original negative symptom rating scores and those obtained via using the conversion equations were in the range of 0.61-0.79. CONCLUSIONS:While there is a degree of non-overlap, several negative symptoms scores reflect measures of similar constructs and may be reliably converted between some scales. The conversion equations are provided at http://www.converteasy.org and may be used for meta- and mega-analyses that examine negative symptoms.

Published

2018

62. Cortical Brain Abnormalities in 4474 Individuals With Schizophrenia and 5098 Control Subjects via the Enhancing Neuro Imaging Genetics Through Meta Analysis (ENIGMA) Consortium.

Author

van Erp, Theo GM, Walton, Esther, Hibar, Derrek P, Schmaal, Lianne, Jiang, Wenhao, Glahn, David C, Pearlson, Godfrey D, Yao, Nailin, Fukunaga, Masaki, Hashimoto, Ryota, Okada, Naohiro, Yamamori, Hidenaga, Bustillo, Juan R, Clark, Vincent P, Agartz, Ingrid, Mueller, Bryon A, Cahn, Wiepke, de Zwarte, Sonja MC, Hulshoff Pol, Hilleke E, Kahn, René S, Ophoff, Roel A, van Haren, Neeltje EM, Andreassen, Ole A, Dale, Anders M, Doan, Nhat Trung, Gurholt, Tiril P, Hartberg, Cecilie B, Haukvik, Unn K, Jørgensen, Kjetil N, Lagerberg, Trine V, Melle, Ingrid, Westlye, Lars T, Gruber, Oliver, Kraemer, Bernd, Richter, Anja, Zilles, David, Calhoun, Vince D, Crespo-Facorro, Benedicto, Roiz-Santiañez, Roberto, Tordesillas-Gutiérrez, Diana, Loughland, Carmel, Carr, Vaughan J, Catts, Stanley, Cropley, Vanessa L, Fullerton, Janice M, Green, Melissa J, Henskens, Frans A, Jablensky, Assen, Lenroot, Rhoshel K, Mowry, Bryan J, Michie, Patricia T, Pantelis, Christos, Quidé, Yann, Schall, Ulrich, Scott, Rodney J, Cairns, Murray J, Seal, Marc, Tooney, Paul A, Rasser, Paul E, Cooper, Gavin, Shannon Weickert, Cynthia, Weickert, Thomas W, Morris, Derek W, Hong, Elliot, Kochunov, Peter, Beard, Lauren M, Gur, Raquel E, Gur, Ruben C, Satterthwaite, Theodore D, Wolf, Daniel H, Belger, Aysenil, Brown, Gregory G, Ford, Judith M, Macciardi, Fabio, Mathalon, Daniel H, O'Leary, Daniel S, Potkin, Steven G, Preda, Adrian, Voyvodic, James, Lim, Kelvin O, McEwen, Sarah, Yang, Fude, Tan, Yunlong, Tan, Shuping, Wang, Zhiren, Fan, Fengmei, Chen, Jingxu, Xiang, Hong, Tang, Shiyou, Guo, Hua, Wan, Ping, Wei, Dong, Bockholt, Henry J, Ehrlich, Stefan, Wolthusen, Rick PF, King, Margaret D, Shoemaker, Jody M, Sponheim, Scott R, De Haan, Lieuwe, and Koenders, Laura

Subjects

Karolinska Schizophrenia Project, Brain, Frontal Lobe, Prefrontal Cortex, Temporal Lobe, Humans, Magnetic Resonance Imaging, Severity of Illness Index, Linear Models, Case-Control Studies, Schizophrenia, Age of Onset, Adolescent, Adult, Aged, Middle Aged, Child, Female, Male, Young Adult, Neuroimaging, Cortical, Imaging, Meta-analysis, Surface area, Thickness, Serious Mental Illness, Biomedical Imaging, Mental Health, Clinical Research, Neurosciences, Brain Disorders, Mental health, Biological Sciences, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry

Abstract

BackgroundThe profile of cortical neuroanatomical abnormalities in schizophrenia is not fully understood, despite hundreds of published structural brain imaging studies. This study presents the first meta-analysis of cortical thickness and surface area abnormalities in schizophrenia conducted by the ENIGMA (Enhancing Neuro Imaging Genetics through Meta Analysis) Schizophrenia Working Group.MethodsThe study included data from 4474 individuals with schizophrenia (mean age, 32.3 years; range, 11-78 years; 66% male) and 5098 healthy volunteers (mean age, 32.8 years; range, 10-87 years; 53% male) assessed with standardized methods at 39 centers worldwide.ResultsCompared with healthy volunteers, individuals with schizophrenia have widespread thinner cortex (left/right hemisphere: Cohen's d = -0.530/-0.516) and smaller surface area (left/right hemisphere: Cohen's d = -0.251/-0.254), with the largest effect sizes for both in frontal and temporal lobe regions. Regional group differences in cortical thickness remained significant when statistically controlling for global cortical thickness, suggesting regional specificity. In contrast, effects for cortical surface area appear global. Case-control, negative, cortical thickness effect sizes were two to three times larger in individuals receiving antipsychotic medication relative to unmedicated individuals. Negative correlations between age and bilateral temporal pole thickness were stronger in individuals with schizophrenia than in healthy volunteers. Regional cortical thickness showed significant negative correlations with normalized medication dose, symptom severity, and duration of illness and positive correlations with age at onset.ConclusionsThe findings indicate that the ENIGMA meta-analysis approach can achieve robust findings in clinical neuroscience studies; also, medication effects should be taken into account in future genetic association studies of cortical thickness in schizophrenia.

Published

2018

63. Cerebello-thalamo-cortical hyperconnectivity as a state-independent functional neural signature for psychosis prediction and characterization.

Author

Cao, Hengyi, Chén, Oliver Y, Chung, Yoonho, Forsyth, Jennifer K, McEwen, Sarah C, Gee, Dylan G, Bearden, Carrie E, Addington, Jean, Goodyear, Bradley, Cadenhead, Kristin S, Mirzakhanian, Heline, Cornblatt, Barbara A, Carrión, Ricardo E, Mathalon, Daniel H, McGlashan, Thomas H, Perkins, Diana O, Belger, Aysenil, Seidman, Larry J, Thermenos, Heidi, Tsuang, Ming T, van Erp, Theo GM, Walker, Elaine F, Hamann, Stephan, Anticevic, Alan, Woods, Scott W, and Cannon, Tyrone D

Subjects

Brain, Humans, Magnetic Resonance Imaging, Case-Control Studies, Cohort Studies, Psychotic Disorders, Schizophrenia, Principal Component Analysis, Connectome, Mental Health, Neurosciences, Serious Mental Illness, Brain Disorders, Clinical Research, Mental health

Abstract

Understanding the fundamental alterations in brain functioning that lead to psychotic disorders remains a major challenge in clinical neuroscience. In particular, it is unknown whether any state-independent biomarkers can potentially predict the onset of psychosis and distinguish patients from healthy controls, regardless of paradigm. Here, using multi-paradigm fMRI data from the North American Prodrome Longitudinal Study consortium, we show that individuals at clinical high risk for psychosis display an intrinsic "trait-like" abnormality in brain architecture characterized as increased connectivity in the cerebello-thalamo-cortical circuitry, a pattern that is significantly more pronounced among converters compared with non-converters. This alteration is significantly correlated with disorganization symptoms and predictive of time to conversion to psychosis. Moreover, using an independent clinical sample, we demonstrate that this hyperconnectivity pattern is reliably detected and specifically present in patients with schizophrenia. These findings implicate cerebello-thalamo-cortical hyperconnectivity as a robust state-independent neural signature for psychosis prediction and characterization.

Published

2018

64. Disrupted network cross talk, hippocampal dysfunction and hallucinations in schizophrenia.

Author

Hare, Stephanie M, Law, Alicia S, Ford, Judith M, Mathalon, Daniel H, Ahmadi, Aral, Damaraju, Eswar, Bustillo, Juan, Belger, Aysenil, Lee, Hyo Jong, Mueller, Bryon A, Lim, Kelvin O, Brown, Gregory G, Preda, Adrian, van Erp, Theo GM, Potkin, Steven G, Calhoun, Vince D, and Turner, Jessica A

Subjects

Hippocampus, Neural Pathways, Humans, Hallucinations, Magnetic Resonance Imaging, Brain Mapping, Schizophrenia, Schizophrenic Psychology, Rest, Adult, Female, Male, ALFF, FNC, Resting-state, fMRI, Mental Health, Serious Mental Illness, Brain Disorders, Neurosciences, Clinical Research, Aetiology, 2.1 Biological and endogenous factors, Neurological, Mental health, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry

Abstract

Hallucinations characterize schizophrenia, with approximately 59% of patients reporting auditory hallucinations and 27% reporting visual hallucinations. Prior neuroimaging studies suggest that hallucinations are linked to disrupted communication across distributed (sensory, salience-monitoring and subcortical) networks. Yet, our understanding of the neurophysiological mechanisms that underlie auditory and visual hallucinations in schizophrenia remains limited. This study integrates two resting-state functional magnetic resonance imaging (fMRI) analysis methods - amplitudes of low-frequency fluctuations (ALFF) and functional network connectivity (FNC) - to explore the hypotheses that (1) abnormal FNC between salience and sensory (visual/auditory) networks underlies hallucinations in schizophrenia, and (2) disrupted hippocampal oscillations (as measured by hippocampal ALFF) beget changes in FNC linked to hallucinations. Our first hypothesis was supported by the finding that schizophrenia patients reporting hallucinations have higher FNC between the salience network and an associative auditory network relative to healthy controls. Hippocampal ALFF was negatively associated with FNC between primary auditory cortex and the salience network in healthy subjects, but was positively associated with FNC between these networks in patients reporting hallucinations. These findings provide indirect support favoring our second hypothesis. We suggest future studies integrate fMRI with electroencephalogram (EEG) and/or magnetoencephalogram (MEG) methods to directly probe the temporal relation between altered hippocampal oscillations and changes in cross-network functional communication.

Published

2018

65. Hippocampal Subregions Across the Psychosis Spectrum

Author

Vargas, Teresa, Dean, Derek J, Osborne, Kenneth Juston, Gupta, Tina, Ristanovic, Ivanka, Ozturk, Sekine, Turner, Jessica, van Erp, Theo GM, and Mittal, Vijay Anand

Subjects

Clinical Research, Schizophrenia, Neurosciences, Serious Mental Illness, Mental Health, Brain Disorders, Aetiology, 2.1 Biological and endogenous factors, Mental health, Adolescent, Adult, Cognitive Dysfunction, Cross-Sectional Studies, Disease Progression, Female, Hippocampus, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Prodromal Symptoms, Psychotic Disorders, Risk, Young Adult, hippocampal subregions, psychosis spectrum, medial-temporal function, cognition, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry

Abstract

Introduction:Converging evidence suggests that hippocampal subregions subserve different functions, and are differentially affected by psychosis illness progression. Despite this fact, studies have not often studied subregions cross-sectionally across the psychosis spectrum. Furthermore, little is known about associations between subregion volumes and hippocampus-mediated cognition. Methods:A total of 222 participants (61 ultra high risk [UHR], 91 schizophrenia [SCZ], and 70 healthy volunteers) underwent a 3T MRI scan, as well as structured clinical interviews and a cognitive battery. Hippocampal subfield analysis was conducted with Freesurfer. We compared subregion volumes across groups, controlling for age, gender, and intracranial volume. We also examined associations in the UHR and SCZ groups between hippocampal subregion volumes and verbal learning, visual learning, and working memory. Results:We found a dose-dependent relationship such that the SCZ group showed significantly greater subfield volume reductions than the UHR group, which in turn showed significantly greater subfield volume reductions than the healthy volunteer group. We also found associations between subregion volume and cognitive performance in the visual memory, verbal memory, and working memory domains. Discussion:Our study examined hippocampal subregion volumes cross-sectionally in a large sample across the psychosis spectrum, as well as links with hippocampus-mediated cognitive function. Our findings suggest that hippocampal abnormalities emerge before first psychosis episode onset, and may be etiologically informative.

Published

2018

66. Multimodal neuromarkers in schizophrenia via cognition-guided MRI fusion.

Author

Sui, Jing, Qi, Shile, van Erp, Theo GM, Bustillo, Juan, Jiang, Rongtao, Lin, Dongdong, Turner, Jessica A, Damaraju, Eswar, Mayer, Andrew R, Cui, Yue, Fu, Zening, Du, Yuhui, Chen, Jiayu, Potkin, Steven G, Preda, Adrian, Mathalon, Daniel H, Ford, Judith M, Voyvodic, James, Mueller, Bryon A, Belger, Aysenil, McEwen, Sarah C, O'Leary, Daniel S, McMahon, Agnes, Jiang, Tianzi, and Calhoun, Vince D

Subjects

Nerve Net, Humans, Magnetic Resonance Imaging, Brain Mapping, Cohort Studies, Cognition, Schizophrenia, Adult, Female, Male, Biomarkers, Biomedical Imaging, Brain Disorders, Basic Behavioral and Social Science, Serious Mental Illness, Neurosciences, Behavioral and Social Science, Clinical Research, Mental Health, 2.1 Biological and endogenous factors, Diagnostic Radiology

Abstract

Cognitive impairment is a feature of many psychiatric diseases, including schizophrenia. Here we aim to identify multimodal biomarkers for quantifying and predicting cognitive performance in individuals with schizophrenia and healthy controls. A supervised learning strategy is used to guide three-way multimodal magnetic resonance imaging (MRI) fusion in two independent cohorts including both healthy individuals and individuals with schizophrenia using multiple cognitive domain scores. Results highlight the salience network (gray matter, GM), corpus callosum (fractional anisotropy, FA), central executive and default-mode networks (fractional amplitude of low-frequency fluctuation, fALFF) as modality-specific biomarkers of generalized cognition. FALFF features are found to be more sensitive to cognitive domain differences, while the salience network in GM and corpus callosum in FA are highly consistent and predictive of multiple cognitive domains. These modality-specific brain regions define-in three separate cohorts-promising co-varying multimodal signatures that can be used as predictors of multi-domain cognition.

Published

2018

67. Hippocampal Pathophysiology: Commonality Shared by Temporal Lobe Epilepsy and Psychiatric Disorders.

Author

Nakahara, Soichiro, Adachi, Megumi, Ito, Hiroyuki, Matsumoto, Mitsuyuki, Tajinda, Katsunori, and van Erp, Theo GM

Abstract

Accumulating evidence points to the association of epilepsy, particularly, temporal lobe epilepsy (TLE), with psychiatric disorders, such as schizophrenia. Among these illnesses, the hippocampus is considered the regional focal point of the brain, playing an important role in cognition, psychosis, and seizure activity and potentially suggesting common etiologies and pathophysiology of TLE and schizophrenia. In the present review, we overview abnormal network connectivity between the dentate gyrus (DG) and the Cornus Ammonis area 3 (CA3) subregions of the hippocampus relative to the induction of epilepsy and schizophrenia. In light of our recent finding on the misguidance of hippocampal mossy fiber projection in the rodent model of schizophrenia, we discuss whether ectopic mossy fiber projection is a commonality in order to evoke TLE as well as symptoms related to schizophrenia.

Published

2018

68. Multimodal Fusion With Reference: Searching for Joint Neuromarkers of Working Memory Deficits in Schizophrenia.

Author

Qi, Shile, Calhoun, Vince D, van Erp, Theo GM, Bustillo, Juan, Damaraju, Eswar, Turner, Jessica A, Du, Yuhui, Yang, Jian, Chen, Jiayu, Yu, Qingbao, Mathalon, Daniel H, Ford, Judith M, Voyvodic, James, Mueller, Bryon A, Belger, Aysenil, McEwen, Sarah, Potkin, Steven G, Preda, Adrian, Jiang, Tianzi, and Sui, Jing

Subjects

Humans, Image Interpretation, Computer-Assisted, Brain Mapping, Cohort Studies, Schizophrenia, Algorithms, Computer Simulation, Adult, Middle Aged, Multimodal Imaging, Supervised Machine Learning, Neurosciences, Mental Health, Serious Mental Illness, Clinical Research, Brain Disorders, Aetiology, 2.1 Biological and endogenous factors, Mental health, Good Health and Well Being, Multimodal fusion with reference, MCCAR, supervised learning, schizophrenia, working memory, ICA, MCCB, CMINDS, Information and Computing Sciences, Engineering, Nuclear Medicine & Medical Imaging

Abstract

By exploiting cross-information among multiple imaging data, multimodal fusion has often been used to better understand brain diseases. However, most current fusion approaches are blind, without adopting any prior information. There is increasing interest to uncover the neurocognitive mapping of specific clinical measurements on enriched brain imaging data; hence, a supervised, goal-directed model that employs prior information as a reference to guide multimodal data fusion is much needed and becomes a natural option. Here, we proposed a fusion with reference model called "multi-site canonical correlation analysis with reference + joint-independent component analysis" (MCCAR+jICA), which can precisely identify co-varying multimodal imaging patterns closely related to the reference, such as cognitive scores. In a three-way fusion simulation, the proposed method was compared with its alternatives on multiple facets; MCCAR+jICA outperforms others with higher estimation precision and high accuracy on identifying a target component with the right correspondence. In human imaging data, working memory performance was utilized as a reference to investigate the co-varying working memory-associated brain patterns among three modalities and how they are impaired in schizophrenia. Two independent cohorts (294 and 83 subjects respectively) were used. Similar brain maps were identified between the two cohorts along with substantial overlaps in the central executive network in fMRI, salience network in sMRI, and major white matter tracts in dMRI. These regions have been linked with working memory deficits in schizophrenia in multiple reports and MCCAR+jICA further verified them in a repeatable, joint manner, demonstrating the ability of the proposed method to identify potential neuromarkers for mental disorders.

Published

2018

69. Deep Learning for Quality Control of Subcortical Brain 3D Shape Models

Author

Petrov, Dmitry, Gutman, Boris A, Kuznetsov, Egor, Ching, Christopher RK, Alpert, Kathryn, Zavaliangos-Petropulu, Artemis, Isaev, Dmitry, Turner, Jessica A, van Erp, Theo GM, Wang, Lei, Schmaal, Lianne, Veltman, Dick, and Thompson, Paul M

Subjects

Information and Computing Sciences, Graphics, Augmented Reality and Games, Machine Learning, Biomedical Imaging, Brain Disorders, Mental Health, Clinical Research, Depression, Neurosciences, Neurological, Mental health, Good Health and Well Being, Deep learning, Subcortical shape analysis, Quality checking, q-bio.NC, Artificial Intelligence & Image Processing, Information and computing sciences

Abstract

We present several deep learning models for assessing the morphometric fidelity of deep grey matter region models extracted from brain MRI. We test three different convolutional neural net architectures (VGGNet, ResNet and Inception) over 2D maps of geometric features. Further, we present a novel geometry feature augmentation technique based on parametric spherical mapping. Finally, we present an approach for model decision visualization, allowing human raters to see the areas of subcortical shapes most likely to be deemed of failing quality by the machine. Our training data is comprised of 5200 subjects from the ENIGMA Schizophrenia MRI cohorts, and our test dataset contains 1500 subjects from the ENIGMA Major Depressive Disorder cohorts. Our final models reduce human rater time by 46–70%. ResNet outperforms VGGNet and Inception for all of our predictive tasks.

Published

2018

70. Multiscale characterization of cortical signatures in positive and negative schizotypy: A worldwide ENIGMA study

Author

Kirschner, Matthias, primary, Hodzic-Santor, Benazir, additional, Kennedy, Leda, additional, Hansen, Justine Y, additional, Antoniades, Mathilde, additional, Nenadic, Igor, additional, Kircher, Tilo, additional, Krug, Alex, additional, Meller, Tina, additional, Dannlowski, Udo, additional, Grotegerd, Dominik, additional, Flinkenfluegel, Kira, additional, Meinert, Susanne, additional, Borgers, Tiana, additional, Goltermann, Janik, additional, Hahn, Tim, additional, Boehnlein, Joscha, additional, Leehr, Elisabeth Johanna, additional, Barkhau, Carlotta, additional, Fornito, Alex, additional, Arnatkeviciute, Aurina, additional, Bellgrove, Mark, additional, Tiego, Jeggan, additional, DeRosse, Pamela, additional, Green, Melissa, additional, Quide, Yann, additional, Pantelis, Christos, additional, Chan, Raymond C K, additional, Wang, Yi, additional, Ettinger, Ulrich, additional, Debbane, Martin, additional, Derome, Melodie, additional, Gaser, Christian, additional, Besteher, Bianca, additional, Diederen, Kelly, additional, Spencer, Thomas J, additional, Houenou, Josselin, additional, Pomarol-Clotet, Edith, additional, Salvador, Raymond, additional, Roessler, Wulf, additional, Smigielski, Lukasz, additional, Kumari, Veena, additional, Premkumar, Preethi, additional, Park, Haeme, additional, Wiebels, Kristina, additional, Lemmers-Jansen, Imke, additional, Gilleen, James, additional, Allen, Paul H, additional, Marsman, Jan-Bernard, additional, Lebedeva, Irina, additional, Tomyshev, Alexander, additional, Fett, Anne-Kathrin, additional, Sommer, Iris, additional, Koops, Sanne, additional, Grant, Phillip, additional, Begue, Indrit, additional, Hernaus, Dennis, additional, Jalbrzikowski, Maria, additional, Paquola, Casey, additional, Lariviere, Sara, additional, Bernhardt, Boris, additional, Valk, Sofie L, additional, Misic, Bratislav, additional, van Erp, Theo GM, additional, Turner, Jessica A, additional, Thompson, Paul M, additional, Aleman, Andre, additional, Dagher, Alain, additional, Kaiser, Stefan, additional, and Modinos, Gemma, additional

Published

2024

71. Normative modelling of brain morphometry across the lifespan with CentileBrain: algorithm benchmarking and model optimisation

Author

Ge, Ruiyang, primary, Yu, Yuetong, additional, Qi, Yi Xuan, additional, Fan, Yu-nan, additional, Chen, Shiyu, additional, Gao, Chuntong, additional, Haas, Shalaila S, additional, New, Faye, additional, Boomsma, Dorret I, additional, Brodaty, Henry, additional, Brouwer, Rachel M, additional, Buckner, Randy, additional, Caseras, Xavier, additional, Crivello, Fabrice, additional, Crone, Eveline A, additional, Erk, Susanne, additional, Fisher, Simon E, additional, Franke, Barbara, additional, Glahn, David C, additional, Dannlowski, Udo, additional, Grotegerd, Dominik, additional, Gruber, Oliver, additional, Hulshoff Pol, Hilleke E, additional, Schumann, Gunter, additional, Tamnes, Christian K, additional, Walter, Henrik, additional, Wierenga, Lara M, additional, Jahanshad, Neda, additional, Thompson, Paul M, additional, Frangou, Sophia, additional, Agartz, Ingrid, additional, Asherson, Philip, additional, Ayesa-Arriola, Rosa, additional, Banaj, Nerisa, additional, Banaschewski, Tobias, additional, Baumeister, Sarah, additional, Bertolino, Alessandro, additional, Borgwardt, Stefan, additional, Bourque, Josiane, additional, Brandeis, Daniel, additional, Breier, Alan, additional, Buitelaar, Jan K, additional, Cannon, Dara M, additional, Cervenka, Simon, additional, Conrod, Patricia J, additional, Crespo-Facorro, Benedicto, additional, Davey, Christopher G, additional, de Haan, Lieuwe, additional, de Zubicaray, Greig I, additional, Di Giorgio, Annabella, additional, Frodl, Thomas, additional, Gruner, Patricia, additional, Gur, Raquel E, additional, Gur, Ruben C, additional, Harrison, Ben J, additional, Hatton, Sean N, additional, Hickie, Ian, additional, Howells, Fleur M, additional, Huyser, Chaim, additional, Jernigan, Terry L, additional, Jiang, Jiyang, additional, Joska, John A, additional, Kahn, René S, additional, Kalnin, Andrew J, additional, Kochan, Nicole A, additional, Koops, Sanne, additional, Kuntsi, Jonna, additional, Lagopoulos, Jim, additional, Lazaro, Luisa, additional, Lebedeva, Irina S, additional, Lochner, Christine, additional, Martin, Nicholas G, additional, Mazoyer, Bernard, additional, McDonald, Brenna C, additional, McDonald, Colm, additional, McMahon, Katie L, additional, Medland, Sarah, additional, Modabbernia, Amirhossein, additional, Mwangi, Benson, additional, Nakao, Tomohiro, additional, Nyberg, Lars, additional, Piras, Fabrizio, additional, Portella, Maria J, additional, Qiu, Jiang, additional, Roffman, Joshua L, additional, Sachdev, Perminder S, additional, Sanford, Nicole, additional, Satterthwaite, Theodore D, additional, Saykin, Andrew J, additional, Sellgren, Carl M, additional, Sim, Kang, additional, Smoller, Jordan W, additional, Soares, Jair C, additional, Sommer, Iris E, additional, Spalletta, Gianfranco, additional, Stein, Dan J, additional, Thomopoulos, Sophia I, additional, Tomyshev, Alexander S, additional, Tordesillas-Gutiérrez, Diana, additional, Trollor, Julian N, additional, van 't Ent, Dennis, additional, van den Heuvel, Odile A, additional, van Erp, Theo GM, additional, van Haren, Neeltje EM, additional, Vecchio, Daniela, additional, Veltman, Dick J, additional, Wang, Yang, additional, Weber, Bernd, additional, Wei, Dongtao, additional, Wen, Wei, additional, Westlye, Lars T, additional, Williams, Steven CR, additional, Wright, Margaret J, additional, Wu, Mon-Ju, additional, and Yu, Kevin, additional

Published

2024

72. Ventricular enlargement and progressive reduction of cortical gray matter are linked in prodromal youth who develop psychosis.

Author

Chung, Yoonho, Haut, Kristen M, He, George, van Erp, Theo GM, McEwen, Sarah, Addington, Jean, Bearden, Carrie E, Cadenhead, Kristin, Cornblatt, Barbara, Mathalon, Daniel H, McGlashan, Thomas, Perkins, Diana, Seidman, Larry J, Tsuang, Ming, Walker, Elaine, Woods, Scott W, Cannon, Tyrone D, and North American Prodrome Longitudinal Study (NAPLS) Consortium

Subjects

North American Prodrome Longitudinal Study (NAPLS) Consortium, Cerebral Ventricles, Cerebral Cortex, Humans, Brain Edema, Disease Progression, Magnetic Resonance Imaging, Longitudinal Studies, Cross-Sectional Studies, Psychotic Disorders, Image Processing, Computer-Assisted, Adolescent, Adult, Female, Male, Young Adult, Prodromal Symptoms, Gray Matter, CHR, MRI, Prodromal, Psychosis, Schizophrenia, Ventricle, Mental Health, Neurosciences, Serious Mental Illness, Prevention, Clinical Research, Brain Disorders, Aetiology, 2.1 Biological and endogenous factors, Mental health, Neurological, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry

Abstract

In a recent prospective longitudinal neuroimaging study, clinical high-risk (CHR) individuals who later developed full-blown psychosis showed an accelerated rate of gray matter thinning in superior and medial prefrontal cortex (PFC) and expansion of the ventricular system after applying a stringent correction for multiple comparisons. Although cortical and subcortical volume loss and enlarged ventricles are well characterized structural brain abnormalities among patients with schizophrenia, no prior study has evaluated whether these progressive changes of neuroanatomical indicators are linked in time prior to onset of psychosis. Therefore, we investigated the relationship between the changes in cortical gray matter thickness and ventricular volume using the longitudinal neuroimaging data from the North American Prodrome Longitudinal Study at the whole-brain level. The results showed that ventricular expansion is linked in time to progressive reduction of gray matter, rather than to structural changes in proximal subcortical regions, in a broadly distributed set of cortical regions among CHR youth, including superior, medial, lateral, and inferior PFC, superior temporal gyrus, and parietal cortices. In contrast, healthy controls did not show the same pattern of associations. The main findings were further replicated using a third assessment wave of MRI scans in a subset of study participants who were followed for an additional year. These findings suggest that the gray matter regions exhibiting aberrant rates of thinning in relation to psychosis risk are not limited to the PFC regions that survived the statistical threshold in our primary study, but also extend to other cortical regions previously implicated in schizophrenia.

Published

2017

73. Machine Learning for Large-Scale Quality Control of 3D Shape Models in Neuroimaging.

Author

Petrov, Dmitry, Gutman, Boris A, Yu, Shih-Hua Julie, van Erp, Theo GM, Turner, Jessica A, Schmaal, Lianne, Veltman, Dick, Wang, Lei, Alpert, Kathryn, Isaev, Dmitry, Zavaliangos-Petropulu, Artemis, Ching, Christopher RK, Calhoun, Vince, Glahn, David, Satterthwaite, Theodore D, Andreasen, Ole Andreas, Borgwardt, Stefan, Howells, Fleur, Groenewold, Nynke, Voineskos, Aristotle, Radua, Joaquim, Potkin, Steven G, Crespo-Facorro, Benedicto, Tordesillas-Gutiérrez, Diana, Shen, Li, Lebedeva, Irina, Spalletta, Gianfranco, Donohoe, Gary, Kochunov, Peter, Rosa, Pedro GP, James, Anthony, Dannlowski, Udo, Baune, Bernhard T, Aleman, André, Gotlib, Ian H, Walter, Henrik, Walter, Martin, Soares, Jair C, Ehrlich, Stefan, Gur, Ruben C, Doan, N Trung, Agartz, Ingrid, Westlye, Lars T, Harrisberger, Fabienne, Riecher-Rössler, Anita, Uhlmann, Anne, Stein, Dan J, Dickie, Erin W, Pomarol-Clotet, Edith, Fuentes-Claramonte, Paola, Canales-Rodríguez, Erick Jorge, Salvador, Raymond, Huang, Alexander J, Roiz-Santiañez, Roberto, Cong, Shan, Tomyshev, Alexander, Piras, Fabrizio, Vecchio, Daniela, Banaj, Nerisa, Ciullo, Valentina, Hong, Elliot, Busatto, Geraldo, Zanetti, Marcus V, Serpa, Mauricio H, Cervenka, Simon, Kelly, Sinead, Grotegerd, Dominik, Sacchet, Matthew D, Veer, Ilya M, Li, Meng, Wu, Mon-Ju, Irungu, Benson, Walton, Esther, and Thompson, Paul M

Subjects

machine learning, quality control, shape analysis, Shape analysis, Machine learning, Quality control, q-bio.QM, Information and Computing Sciences, Artificial Intelligence & Image Processing

Abstract

As very large studies of complex neuroimaging phenotypes become more common, human quality assessment of MRI-derived data remains one of the last major bottlenecks. Few attempts have so far been made to address this issue with machine learning. In this work, we optimize predictive models of quality for meshes representing deep brain structure shapes. We use standard vertex-wise and global shape features computed homologously across 19 cohorts and over 7500 human-rated subjects, training kernelized Support Vector Machine and Gradient Boosted Decision Trees classifiers to detect meshes of failing quality. Our models generalize across datasets and diseases, reducing human workload by 30-70%, or equivalently hundreds of human rater hours for datasets of comparable size, with recall rates approaching inter-rater reliability.

Published

2017

74. Inferring pathobiology from structural MRI in schizophrenia and bipolar disorder: Modeling head motion and neuroanatomical specificity

Author

Yao, Nailin, Winkler, Anderson M, Barrett, Jennifer, Book, Gregory A, Beetham, Tamara, Horseman, Rachel, Leach, Olivia, Hodgson, Karen, Knowles, Emma E, Mathias, Samuel, Stevens, Michael C, Assaf, Michal, van Erp, Theo GM, Pearlson, Godfrey D, and Glahn, David C

Subjects

Biological Psychology, Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Psychology, Brain Disorders, Schizophrenia, Mental Health, Neurosciences, Serious Mental Illness, Biomedical Imaging, 2.3 Psychological, social and economic factors, 4.2 Evaluation of markers and technologies, Aetiology, Detection, screening and diagnosis, Mental health, Adult, Bipolar Disorder, Brain, Cohort Studies, Diagnosis, Differential, Female, Head, Humans, Image Processing, Computer-Assisted, Magnetic Resonance Imaging, Male, Models, Biological, Motion, Organ Size, Psychiatric Status Rating Scales, Neuroanatomy, Neuroimaging, Structural MRI, bipolar disorder, head motion, neuroanatomic specificity, neuroanatomy, neuroimaging, schizophrenia, structural MRI, Cognitive Sciences, Experimental Psychology, Biological psychology, Cognitive and computational psychology

Abstract

Despite over 400 peer-reviewed structural MRI publications documenting neuroanatomic abnormalities in bipolar disorder and schizophrenia, the confounding effects of head motion and the regional specificity of these defects are unclear. Using a large cohort of individuals scanned on the same research dedicated MRI with broadly similar protocols, we observe reduced cortical thickness indices in both illnesses, though less pronounced in bipolar disorder. While schizophrenia (n = 226) was associated with wide-spread surface area reductions, bipolar disorder (n = 227) and healthy comparison subjects (n = 370) did not differ. We replicate earlier reports that head motion (estimated from time-series data) influences surface area and cortical thickness measurements and demonstrate that motion influences a portion, but not all, of the observed between-group structural differences. Although the effect sizes for these differences were small to medium, when global indices were covaried during vertex-level analyses, between-group effects became nonsignificant. This analysis raises doubts about the regional specificity of structural brain changes, possible in contrast to functional changes, in affective and psychotic illnesses as measured with current imaging technology. Given that both schizophrenia and bipolar disorder showed cortical thickness reductions, but only schizophrenia showed surface area changes, and assuming these measures are influenced by at least partially unique sets of biological factors, then our results could indicate some degree of specificity between bipolar disorder and schizophrenia. Hum Brain Mapp 38:3757-3770, 2017. © 2017 Wiley Periodicals, Inc.

Published

2017

75. Subcortical brain volume differences in participants with attention deficit hyperactivity disorder in children and adults: a cross-sectional mega-analysis

Author

Hoogman, Martine, Bralten, Janita, Hibar, Derrek P, Mennes, Maarten, Zwiers, Marcel P, Schweren, Lizanne SJ, van Hulzen, Kimm JE, Medland, Sarah E, Shumskaya, Elena, Jahanshad, Neda, de Zeeuw, Patrick, Szekely, Eszter, Sudre, Gustavo, Wolfers, Thomas, Onnink, Alberdingk MH, Dammers, Janneke T, Mostert, Jeanette C, Vives-Gilabert, Yolanda, Kohls, Gregor, Oberwelland, Eileen, Seitz, Jochen, Schulte-Rüther, Martin, Ambrosino, Sara, Doyle, Alysa E, Høvik, Marie F, Dramsdahl, Margaretha, Tamm, Leanne, van Erp, Theo GM, Dale, Anders, Schork, Andrew, Conzelmann, Annette, Zierhut, Kathrin, Baur, Ramona, McCarthy, Hazel, Yoncheva, Yuliya N, Cubillo, Ana, Chantiluke, Kaylita, Mehta, Mitul A, Paloyelis, Yannis, Hohmann, Sarah, Baumeister, Sarah, Bramati, Ivanei, Mattos, Paulo, Tovar-Moll, Fernanda, Douglas, Pamela, Banaschewski, Tobias, Brandeis, Daniel, Kuntsi, Jonna, Asherson, Philip, Rubia, Katya, Kelly, Clare, Di Martino, Adriana, Milham, Michael P, Castellanos, Francisco X, Frodl, Thomas, Zentis, Mariam, Lesch, Klaus-Peter, Reif, Andreas, Pauli, Paul, Jernigan, Terry L, Haavik, Jan, Plessen, Kerstin J, Lundervold, Astri J, Hugdahl, Kenneth, Seidman, Larry J, Biederman, Joseph, Rommelse, Nanda, Heslenfeld, Dirk J, Hartman, Catharina A, Hoekstra, Pieter J, Oosterlaan, Jaap, von Polier, Georg, Konrad, Kerstin, Vilarroya, Oscar, Ramos-Quiroga, Josep Antoni, Soliva, Joan Carles, Durston, Sarah, Buitelaar, Jan K, Faraone, Stephen V, Shaw, Philip, Thompson, Paul M, and Franke, Barbara

Subjects

Brain Disorders, Neurosciences, Attention Deficit Hyperactivity Disorder (ADHD), Clinical Research, Mental Health, Pediatric, Biomedical Imaging, 2.1 Biological and endogenous factors, Aetiology, Mental health, Good Health and Well Being, Adolescent, Adult, Attention Deficit Disorder with Hyperactivity, Brain, Case-Control Studies, Child, Child, Preschool, Cross-Sectional Studies, Female, Humans, Linear Models, Longitudinal Studies, Magnetic Resonance Imaging, Male, Middle Aged, Neuroimaging, Young Adult, Clinical Sciences, Public Health and Health Services, Psychology

Abstract

BackgroundNeuroimaging studies have shown structural alterations in several brain regions in children and adults with attention deficit hyperactivity disorder (ADHD). Through the formation of the international ENIGMA ADHD Working Group, we aimed to address weaknesses of previous imaging studies and meta-analyses, namely inadequate sample size and methodological heterogeneity. We aimed to investigate whether there are structural differences in children and adults with ADHD compared with those without this diagnosis.MethodsIn this cross-sectional mega-analysis, we used the data from the international ENIGMA Working Group collaboration, which in the present analysis was frozen at Feb 8, 2015. Individual sites analysed structural T1-weighted MRI brain scans with harmonised protocols of individuals with ADHD compared with those who do not have this diagnosis. Our primary outcome was to assess case-control differences in subcortical structures and intracranial volume through pooling of all individual data from all cohorts in this collaboration. For this analysis, p values were significant at the false discovery rate corrected threshold of p=0·0156.FindingsOur sample comprised 1713 participants with ADHD and 1529 controls from 23 sites with a median age of 14 years (range 4-63 years). The volumes of the accumbens (Cohen's d=-0·15), amygdala (d=-0·19), caudate (d=-0·11), hippocampus (d=-0·11), putamen (d=-0·14), and intracranial volume (d=-0·10) were smaller in individuals with ADHD compared with controls in the mega-analysis. There was no difference in volume size in the pallidum (p=0·95) and thalamus (p=0·39) between people with ADHD and controls. Exploratory lifespan modelling suggested a delay of maturation and a delay of degeneration, as effect sizes were highest in most subgroups of children (21 years): in the accumbens (Cohen's d=-0·19 vs -0·10), amygdala (d=-0·18 vs -0·14), caudate (d=-0·13 vs -0·07), hippocampus (d=-0·12 vs -0·06), putamen (d=-0·18 vs -0·08), and intracranial volume (d=-0·14 vs 0·01). There was no difference between children and adults for the pallidum (p=0·79) or thalamus (p=0·89). Case-control differences in adults were non-significant (all p>0·03). Psychostimulant medication use (all p>0·15) or symptom scores (all p>0·02) did not influence results, nor did the presence of comorbid psychiatric disorders (all p>0·5).InterpretationWith the largest dataset to date, we add new knowledge about bilateral amygdala, accumbens, and hippocampus reductions in ADHD. We extend the brain maturation delay theory for ADHD to include subcortical structures and refute medication effects on brain volume suggested by earlier meta-analyses. Lifespan analyses suggest that, in the absence of well powered longitudinal studies, the ENIGMA cross-sectional sample across six decades of ages provides a means to generate hypotheses about lifespan trajectories in brain phenotypes.FundingNational Institutes of Health.

Published

2017

76. Childhood adversity impacts on brain subcortical structures relevant to depression

Author

Frodl, Thomas, Janowitz, Deborah, Schmaal, Lianne, Tozzi, Leonardo, Dobrowolny, Henrik, Stein, Dan J, Veltman, Dick J, Wittfeld, Katharina, van Erp, Theo GM, Jahanshad, Neda, Block, Andrea, Hegenscheid, Katrin, Völzke, Henry, Lagopoulos, Jim, Hatton, Sean N, Hickie, Ian B, Frey, Eva Maria, Carballedo, Angela, Brooks, Samantha J, Vuletic, Daniella, Uhlmann, Anne, Veer, Ilya M, Walter, Henrik, Schnell, Knut, Grotegerd, Dominik, Arolt, Volker, Kugel, Harald, Schramm, Elisabeth, Konrad, Carsten, Zurowski, Bartosz, Baune, Bernhard T, van der Wee, Nic JA, van Tol, Marie-Jose, Penninx, Brenda WJH, Thompson, Paul M, Hibar, Derrek P, Dannlowski, Udo, and Grabe, Hans J

Subjects

Biological Psychology, Biomedical and Clinical Sciences, Clinical Sciences, Psychology, Mental Health, Violence Research, Serious Mental Illness, Behavioral and Social Science, Depression, Major Depressive Disorder, Brain Disorders, Pediatric, Neurosciences, Aetiology, 2.3 Psychological, social and economic factors, Mental health, Adult, Adult Survivors of Child Adverse Events, Antidepressive Agents, Brain, Depressive Disorder, Major, Female, Humans, Image Processing, Computer-Assisted, Magnetic Resonance Imaging, Male, Middle Aged, Organ Size, Psychiatric Status Rating Scales, Sex Characteristics, Software, Surveys and Questionnaires, Childhood adversity, MRI, Caudate, Hippocampus, ENIGMA, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry, Clinical sciences, Clinical and health psychology

Abstract

Childhood adversity plays an important role for development of major depressive disorder (MDD). There are differences in subcortical brain structures between patients with MDD and healthy controls, but the specific impact of childhood adversity on such structures in MDD remains unclear. Thus, aim of the present study was to investigate whether childhood adversity is associated with subcortical volumes and how it interacts with a diagnosis of MDD and sex. Within the ENIGMA-MDD network, nine university partner sites, which assessed childhood adversity and magnetic resonance imaging in patients with MDD and controls, took part in the current joint mega-analysis. In this largest effort world-wide to identify subcortical brain structure differences related to childhood adversity, 3036 participants were analyzed for subcortical brain volumes using FreeSurfer. A significant interaction was evident between childhood adversity, MDD diagnosis, sex, and region. Increased exposure to childhood adversity was associated with smaller caudate volumes in females independent of MDD. All subcategories of childhood adversity were negatively associated with caudate volumes in females - in particular emotional neglect and physical neglect (independently from age, ICV, imaging site and MDD diagnosis). There was no interaction effect between childhood adversity and MDD diagnosis on subcortical brain volumes. Childhood adversity is one of the contributors to brain structural abnormalities. It is associated with subcortical brain abnormalities that are relevant to psychiatric disorders such as depression.

Published

2017

77. Modality-Dependent Impact of Hallucinations on Low-Frequency Fluctuations in Schizophrenia

Author

Hare, Stephanie M, Ford, Judith M, Ahmadi, Aral, Damaraju, Eswar, Belger, Aysenil, Bustillo, Juan, Lee, Hyo Jong, Mathalon, Daniel H, Mueller, Bryon A, Preda, Adrian, van Erp, Theo GM, Potkin, Steven G, Calhoun, Vince D, Turner, Jessica A, and Network, Functional Imaging Biomedical Informatics Research

Subjects

Mental Health, Brain Disorders, Serious Mental Illness, Neurosciences, Clinical Research, Schizophrenia, Biomedical Imaging, Neurological, Mental health, Adult, Auditory Perception, Brain Waves, Female, Functional Neuroimaging, Hallucinations, Hippocampus, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Severity of Illness Index, Visual Perception, hallucinations, hippocampus, ALFF, rest ing-state, fMRI, Functional Imaging Biomedical Informatics Research Network, resting-state, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry

Abstract

Prior resting-state functional magnetic resonance imaging (fMRI) analyses have identified patterns of functional connectivity associated with hallucinations in schizophrenia (Sz). In this study, we performed an analysis of the mean amplitude of low-frequency fluctuations (ALFF) to compare resting state spontaneous low-frequency fluctuations in patients with Sz who report experiencing hallucinations impacting different sensory modalities. By exploring dynamics across 2 low-frequency passbands (slow-4 and slow-5), we assessed the impact of hallucination modality and frequency range on spatial ALFF variation. Drawing from a sample of Sz and healthy controls studied as part of the Functional Imaging Biomedical Informatics Research Network (FBIRN), we replicated prior findings showing that patients with Sz have decreased ALFF in the posterior brain in comparison to controls. Remarkably, we found that patients that endorsed visual hallucinations did not show this pattern of reduced ALFF in the back of the brain. These patients also had elevated ALFF in the left hippocampus in comparison to patients that endorsed auditory (but not visual) hallucinations. Moreover, left hippocampal ALFF across all the cases was related to reported hallucination severity in both the auditory and visual domains, and not overall positive symptoms. This supports the hypothesis that dynamic changes in the ALFF in the hippocampus underlie severity of hallucinations that impact different sensory modalities.

Published

2017

78. Multisite reliability of MR-based functional connectivity.

Author

Noble, Stephanie, Scheinost, Dustin, Finn, Emily S, Shen, Xilin, Papademetris, Xenophon, McEwen, Sarah C, Bearden, Carrie E, Addington, Jean, Goodyear, Bradley, Cadenhead, Kristin S, Mirzakhanian, Heline, Cornblatt, Barbara A, Olvet, Doreen M, Mathalon, Daniel H, McGlashan, Thomas H, Perkins, Diana O, Belger, Aysenil, Seidman, Larry J, Thermenos, Heidi, Tsuang, Ming T, van Erp, Theo GM, Walker, Elaine F, Hamann, Stephan, Woods, Scott W, Cannon, Tyrone D, and Constable, R Todd

Subjects

Brain, Neural Pathways, Humans, Magnetic Resonance Imaging, Brain Mapping, Longitudinal Studies, Reproducibility of Results, Adult, Female, Male, Multicenter Studies as Topic, Young Adult, Neurosciences, Clinical Research, Biomedical Imaging, Clinical Trials and Supportive Activities, Medical and Health Sciences, Psychology and Cognitive Sciences, Neurology & Neurosurgery

Abstract

Recent years have witnessed an increasing number of multisite MRI functional connectivity (fcMRI) studies. While multisite studies provide an efficient way to accelerate data collection and increase sample sizes, especially for rare clinical populations, any effects of site or MRI scanner could ultimately limit power and weaken results. Little data exists on the stability of functional connectivity measurements across sites and sessions. In this study, we assess the influence of site and session on resting state functional connectivity measurements in a healthy cohort of traveling subjects (8 subjects scanned twice at each of 8 sites) scanned as part of the North American Prodrome Longitudinal Study (NAPLS). Reliability was investigated in three types of connectivity analyses: (1) seed-based connectivity with posterior cingulate cortex (PCC), right motor cortex (RMC), and left thalamus (LT) as seeds; (2) the intrinsic connectivity distribution (ICD), a voxel-wise connectivity measure; and (3) matrix connectivity, a whole-brain, atlas-based approach to assessing connectivity between nodes. Contributions to variability in connectivity due to subject, site, and day-of-scan were quantified and used to assess between-session (test-retest) reliability in accordance with Generalizability Theory. Overall, no major site, scanner manufacturer, or day-of-scan effects were found for the univariate connectivity analyses; instead, subject effects dominated relative to the other measured factors. However, summaries of voxel-wise connectivity were found to be sensitive to site and scanner manufacturer effects. For all connectivity measures, although subject variance was three times the site variance, the residual represented 60-80% of the variance, indicating that connectivity differed greatly from scan to scan independent of any of the measured factors (i.e., subject, site, and day-of-scan). Thus, for a single 5min scan, reliability across connectivity measures was poor (ICC=0.07-0.17), but increased with increasing scan duration (ICC=0.21-0.36 at 25min). The limited effects of site and scanner manufacturer support the use of multisite studies, such as NAPLS, as a viable means of collecting data on rare populations and increasing power in univariate functional connectivity studies. However, the results indicate that aggregation of fcMRI data across longer scan durations is necessary to increase the reliability of connectivity estimates at the single-subject level.

Published

2017

79. Biclustered Independent Component Analysis for Complex Biomarker and Subtype Identification from Structural Magnetic Resonance Images in Schizophrenia.

Author

Gupta, Cota Navin, Castro, Eduardo, Rachkonda, Srinivas, van Erp, Theo GM, Potkin, Steven, Ford, Judith M, Mathalon, Daniel, Lee, Hyo Jong, Mueller, Bryon A, Greve, Douglas N, Andreassen, Ole A, Agartz, Ingrid, Mayer, Andrew R, Stephen, Julia, Jung, Rex E, Bustillo, Juan, Calhoun, Vince D, and Turner, Jessica A

Subjects

biclustering, gray matter concentration, group information-guided independent component analysis, independent component analysis, positive and negative syndrome scale symptoms, subtypes, Neurosciences, Mental Health, Clinical Research, Brain Disorders, Biomedical Imaging, Schizophrenia, Good Health and Well Being, Clinical Sciences, Public Health and Health Services, Psychology

Abstract

Clinical and cognitive symptoms domain-based subtyping in schizophrenia (Sz) has been critiqued due to the lack of neurobiological correlates and heterogeneity in symptom scores. We, therefore, present a novel data-driven framework using biclustered independent component analysis to detect subtypes from the reliable and stable gray matter concentration (GMC) of patients with Sz. The developed methodology consists of the following steps: source-based morphometry (SBM) decomposition, selection and sorting of two component loadings, subtype component reconstruction using group information-guided ICA (GIG-ICA). This framework was applied to the top two group discriminative components namely the insula/superior temporal gyrus/inferior frontal gyrus (I-STG-IFG component) and the superior frontal gyrus/middle frontal gyrus/medial frontal gyrus (SFG-MiFG-MFG component) from our previous SBM study, which showed diagnostic group difference and had the highest effect sizes. The aggregated multisite dataset consisted of 382 patients with Sz regressed of age, gender, and site voxelwise. We observed two subtypes (i.e., two different subsets of subjects) each heavily weighted on these two components, respectively. These subsets of subjects were characterized by significant differences in positive and negative syndrome scale (PANSS) positive clinical symptoms (p = 0.005). We also observed an overlapping subtype weighing heavily on both of these components. The PANSS general clinical symptom of this subtype was trend level correlated with the loading coefficients of the SFG-MiFG-MFG component (r = 0.25; p = 0.07). The reconstructed subtype-specific component using GIG-ICA showed variations in voxel regions, when compared to the group component. We observed deviations from mean GMC along with conjunction of features from two components characterizing each deciphered subtype. These inherent variations in GMC among patients with Sz could possibly indicate the need for personalized treatment and targeted drug development.

Published

2017

80. Disrupted Working Memory Circuitry in Adolescent Psychosis

Author

Eckfeld, Ariel, Karlsgodt, Katherine H, Haut, Kristen M, Bachman, Peter, Jalbrzikowski, Maria, Zinberg, Jamie, van Erp, Theo GM, Cannon, Tyrone D, and Bearden, Carrie E

Subjects

Biological Psychology, Biomedical and Clinical Sciences, Psychology, Applied and Developmental Psychology, Pediatric, Brain Disorders, Clinical Research, Mental Illness, Mental Health, Neurosciences, Basic Behavioral and Social Science, Schizophrenia, Serious Mental Illness, Behavioral and Social Science, 1.2 Psychological and socioeconomic processes, 1.1 Normal biological development and functioning, Neurological, Mental health, schizophrenia, connectivity, development, adolescence, working memory capacity, Cognitive Sciences, Experimental Psychology, Biological psychology, Cognitive and computational psychology

Abstract

Individuals with schizophrenia (SZ) consistently show deficits in spatial working memory (WM) and associated atypical patterns of neural activity within key WM regions, including the dorsolateral prefrontal cortex (dlPFC) and parietal cortices. However, little research has focused on adolescent psychosis (AP) and potential age-associated disruptions of WM circuitry that may occur in youth with this severe form of illness. Here we utilized each subject's individual spatial WM capacity to investigate task-based neural dysfunction in 17 patients with AP (16.58 ± 2.60 years old) as compared to 17 typically developing, demographically comparable adolescents (18.07 ± 3.26 years old). AP patients showed lower behavioral performance at higher WM loads and lower overall WM capacity compared to healthy controls. Whole-brain activation analyses revealed greater bilateral precentral and right postcentral activity in controls relative to AP patients, when controlling for individual WM capacity. Seed-based psychophysiological interaction (PPI) analyses revealed significantly greater co-activation between the left dlPFC and left frontal pole in controls relative to AP patients. Significant group-by-age interactions were observed in both whole-brain and PPI analyses, with AP patients showing atypically greater neural activity and stronger coupling between WM task activated brain regions as a function of increasing age. Additionally, AP patients demonstrated positive relationships between right dlPFC neural activity and task performance, but unlike healthy controls, failed to show associations between neural activity and out-of-scanner neurocognitive performance. Collectively, these findings are consistent with atypical WM-related functioning and disrupted developmental processes in youth with AP.

Published

2017

81. ENIGMA and the individual: Predicting factors that affect the brain in 35 countries worldwide

Author

Thompson, Paul M, Andreassen, Ole A, Arias-Vasquez, Alejandro, Bearden, Carrie E, Boedhoe, Premika S, Brouwer, Rachel M, Buckner, Randy L, Buitelaar, Jan K, Bulayeva, Kazima B, Cannon, Dara M, Cohen, Ronald A, Conrod, Patricia J, Dale, Anders M, Deary, Ian J, Dennis, Emily L, de Reus, Marcel A, Desrivieres, Sylvane, Dima, Danai, Donohoe, Gary, Fisher, Simon E, Fouche, Jean-Paul, Francks, Clyde, Frangou, Sophia, Franke, Barbara, Ganjgahi, Habib, Garavan, Hugh, Glahn, David C, Grabe, Hans J, Guadalupe, Tulio, Gutman, Boris A, Hashimoto, Ryota, Hibar, Derrek P, Holland, Dominic, Hoogman, Martine, Pol, Hilleke E Hulshoff, Hosten, Norbert, Jahanshad, Neda, Kelly, Sinead, Kochunov, Peter, Kremen, William S, Lee, Phil H, Mackey, Scott, Martin, Nicholas G, Mazoyer, Bernard, McDonald, Colm, Medland, Sarah E, Morey, Rajendra A, Nichols, Thomas E, Paus, Tomas, Pausova, Zdenka, Schmaal, Lianne, Schumann, Gunter, Shen, Li, Sisodiya, Sanjay M, Smit, Dirk JA, Smoller, Jordan W, Stein, Dan J, Stein, Jason L, Toro, Roberto, Turner, Jessica A, van den Heuvel, Martijn P, van den Heuvel, Odile L, van Erp, Theo GM, van Rooij, Daan, Veltman, Dick J, Walter, Henrik, Wang, Yalin, Wardlaw, Joanna M, Whelan, Christopher D, Wright, Margaret J, Ye, Jieping, and Consortium, for the ENIGMA

Subjects

Biomedical and Clinical Sciences, Health Sciences, Genetics, Mental Health, Prevention, Brain Disorders, Neurosciences, 2.1 Biological and endogenous factors, Aetiology, Mental health, Neurological, Good Health and Well Being, Brain Diseases, Genome-Wide Association Study, Humans, Mental Disorders, Multicenter Studies as Topic, ENIGMA Consortium, Medical and Health Sciences, Psychology and Cognitive Sciences, Neurology & Neurosurgery, Biomedical and clinical sciences, Health sciences

Abstract

In this review, we discuss recent work by the ENIGMA Consortium (http://enigma.ini.usc.edu) - a global alliance of over 500 scientists spread across 200 institutions in 35 countries collectively analyzing brain imaging, clinical, and genetic data. Initially formed to detect genetic influences on brain measures, ENIGMA has grown to over 30 working groups studying 12 major brain diseases by pooling and comparing brain data. In some of the largest neuroimaging studies to date - of schizophrenia and major depression - ENIGMA has found replicable disease effects on the brain that are consistent worldwide, as well as factors that modulate disease effects. In partnership with other consortia including ADNI, CHARGE, IMAGEN and others1, ENIGMA's genomic screens - now numbering over 30,000 MRI scans - have revealed at least 8 genetic loci that affect brain volumes. Downstream of gene findings, ENIGMA has revealed how these individual variants - and genetic variants in general - may affect both the brain and risk for a range of diseases. The ENIGMA consortium is discovering factors that consistently affect brain structure and function that will serve as future predictors linking individual brain scans and genomic data. It is generating vast pools of normative data on brain measures - from tens of thousands of people - that may help detect deviations from normal development or aging in specific groups of subjects. We discuss challenges and opportunities in applying these predictors to individual subjects and new cohorts, as well as lessons we have learned in ENIGMA's efforts so far.

Published

2017

82. Effect of brexpiprazole on control of impulsivity in schizophrenia: A randomized functional magnetic resonance imaging study

Author

van Erp, Theo GM, Baker, Ross A, Cox, Kevin, Okame, Takao, Kojima, Yoshitsugu, Eramo, Anna, and Potkin, Steven G

Published

2020

83. ADHD and cannabis use in young adults examined using fMRI of a Go/NoGo task.

Author

Rasmussen, Jerod, Casey, BJ, van Erp, Theo GM, Tamm, Leanne, Epstein, Jeffery N, Buss, Claudia, Bjork, James M, Molina, Brooke SG, Velanova, Katerina, Mathalon, Daniel H, Somerville, Leah, Swanson, James M, Wigal, Tim, Arnold, L Eugene, Potkin, Steven G, and MTA Neuroimaging Group

Subjects

MTA Neuroimaging Group, Brain, Humans, Cannabis, Marijuana Abuse, Tobacco Use Disorder, Magnetic Resonance Imaging, Brain Mapping, Longitudinal Studies, Follow-Up Studies, Attention Deficit Disorder with Hyperactivity, Neuropsychological Tests, Adult, Female, Male, Young Adult, Self Report, Inhibition, Psychological, ADHD, Go/NoGo, Inhibition, Marijuana, fMRI, Substance Misuse, Drug Abuse (NIDA only), Pediatric Research Initiative, Cannabinoid Research, Pediatric, Attention Deficit Hyperactivity Disorder (ADHD), Clinical Research, Neurosciences, Behavioral and Social Science, Mental Health, Brain Disorders, Aetiology, 2.1 Biological and endogenous factors, Mental health, Good Health and Well Being, Medical and Health Sciences, Psychology and Cognitive Sciences, Experimental Psychology

Abstract

Children diagnosed with attention-deficit/hyperactivity disorder (ADHD) are at increased risk for substance abuse. Response inhibition is a hallmark of ADHD, yet the combined effects of ADHD and regular substance use on neural networks associated with response inhibition are unknown. Task-based functional Magnetic Resonance Imaging (fMRI) data from young adults with childhood ADHD with (n = 25) and without (n = 25) cannabis use ≥ monthly in the past year were compared with a local normative comparison group (LNCG) with (n = 11) and without (n = 12) cannabis use. Go/NoGo behavioral and fMRI data were evaluated for main and interaction effects of ADHD diagnosis and cannabis use. ADHD participants made significantly more commission errors on NoGo trials than controls. ADHD participants also had less frontoparietal and frontostriatal activity, independent of cannabis use. No main effects of cannabis use on response inhibition or functional brain activation were observed. An interaction of ADHD diagnosis and cannabis use was found in the right hippocampus and cerebellar vermis, with increased recruitment of these regions in cannabis-using controls during correct response inhibition. ADHD participants had impaired response inhibition combined with less fronto-parietal/striatal activity, regardless of cannabis use history. Cannabis use did not impact behavioral response inhibition. Cannabis use was associated with hippocampal and cerebellar activation, areas rich in cannabinoid receptors, in LNCG but not ADHD participants. This may reflect recruitment of compensatory circuitry in cannabis using controls but not ADHD participants. Future studies targeting hippocampal and cerebellar-dependent function in these groups may provide further insight into how this circuitry is altered by ADHD and cannabis use.

Published

2016

84. Pallidum and lateral ventricle volume enlargement in autism spectrum disorder

Author

Turner, Andia H, Greenspan, Kiefer S, and van Erp, Theo GM

Subjects

Biological Psychology, Psychology, Brain Disorders, Pediatric, Autism, Neurosciences, Mental Health, Intellectual and Developmental Disabilities (IDD), Clinical Research, Underpinning research, 2.1 Biological and endogenous factors, Aetiology, 1.1 Normal biological development and functioning, Mental health, Neurological, Adolescent, Adult, Autism Spectrum Disorder, Brain, Case-Control Studies, Child, Female, Globus Pallidus, Hippocampus, Humans, Intelligence, Lateral Ventricles, Magnetic Resonance Imaging, Male, Middle Aged, Neuroimaging, Young Adult, ABIDE, ASD, Globus pallidus, Imaging, Lateral ventricle, MRI, Pallidum, Volume, Clinical Sciences, Cognitive Sciences, Psychiatry, Clinical sciences, Biological psychology

Abstract

Studies on structural brain abnormalities in individuals with autism spectrum disorders (ASD) have been of limited size and many findings have not been replicated. In the largest ASD brain morphology study to date, we compared subcortical, total brain (TBV), and intracranial (ICV) volumes between 472 subjects with DSM-IV ASD diagnoses and 538 healthy volunteers (age range: 6-64 years), obtained from high-resolution structural brain scans provided by the Autism Brain Imaging Data Exchange (ABIDE). Compared to healthy volunteers, we found significantly larger pallidum (Cohen's d=0.15) and lateral ventricle volumes (Cohen's d=0.18) in ASD. These enlargements were independent of total brain volume and IQ, passed FDR correction for multiple comparisons, and were observed in overall, male-only, and medication-free subjects. In addition, intracranial, hippocampal, and caudate volumes were enlarged in ASD at a nominal statistical threshold of p

Published

2016

85. Heritability and reliability of automatically segmented human hippocampal formation subregions

Author

Whelan, Christopher D, Hibar, Derrek P, van Velzen, Laura S, Zannas, Anthony S, Carrillo-Roa, Tania, McMahon, Katie, Prasad, Gautam, Kelly, Sinéad, Faskowitz, Joshua, deZubiracay, Greig, Iglesias, Juan E, van Erp, Theo GM, Frodl, Thomas, Martin, Nicholas G, Wright, Margaret J, Jahanshad, Neda, Schmaal, Lianne, Sämann, Philipp G, Thompson, Paul M, and Initiative, for the Alzheimer's Disease Neuroimaging

Subjects

Biomedical and Clinical Sciences, Health Sciences, Acquired Cognitive Impairment, Clinical Research, Neurosciences, Brain Disorders, Mental Health, Biomedical Imaging, Aging, 2.1 Biological and endogenous factors, Aetiology, Neurological, Mental health, Good Health and Well Being, Adult, Aged, Aged, 80 and over, Algorithms, Alzheimer Disease, Anxiety Disorders, Depressive Disorder, Female, Hippocampus, Humans, Image Processing, Computer-Assisted, Magnetic Resonance Imaging, Male, Middle Aged, Neuroimaging, Phenotype, Software, Alzheimer's Disease Neuroimaging Initiative, Medical and Health Sciences, Psychology and Cognitive Sciences, Neurology & Neurosurgery, Biomedical and clinical sciences, Health sciences

Abstract

The human hippocampal formation can be divided into a set of cytoarchitecturally and functionally distinct subregions, involved in different aspects of memory formation. Neuroanatomical disruptions within these subregions are associated with several debilitating brain disorders including Alzheimer's disease, major depression, schizophrenia, and bipolar disorder. Multi-center brain imaging consortia, such as the Enhancing Neuro Imaging Genetics through Meta-Analysis (ENIGMA) consortium, are interested in studying disease effects on these subregions, and in the genetic factors that affect them. For large-scale studies, automated extraction and subsequent genomic association studies of these hippocampal subregion measures may provide additional insight. Here, we evaluated the test-retest reliability and transplatform reliability (1.5T versus 3T) of the subregion segmentation module in the FreeSurfer software package using three independent cohorts of healthy adults, one young (Queensland Twins Imaging Study, N=39), another elderly (Alzheimer's Disease Neuroimaging Initiative, ADNI-2, N=163) and another mixed cohort of healthy and depressed participants (Max Planck Institute, MPIP, N=598). We also investigated agreement between the most recent version of this algorithm (v6.0) and an older version (v5.3), again using the ADNI-2 and MPIP cohorts in addition to a sample from the Netherlands Study for Depression and Anxiety (NESDA) (N=221). Finally, we estimated the heritability (h(2)) of the segmented subregion volumes using the full sample of young, healthy QTIM twins (N=728). Test-retest reliability was high for all twelve subregions in the 3T ADNI-2 sample (intraclass correlation coefficient (ICC)=0.70-0.97) and moderate-to-high in the 4T QTIM sample (ICC=0.5-0.89). Transplatform reliability was strong for eleven of the twelve subregions (ICC=0.66-0.96); however, the hippocampal fissure was not consistently reconstructed across 1.5T and 3T field strengths (ICC=0.47-0.57). Between-version agreement was moderate for the hippocampal tail, subiculum and presubiculum (ICC=0.78-0.84; Dice Similarity Coefficient (DSC)=0.55-0.70), and poor for all other subregions (ICC=0.34-0.81; DSC=0.28-0.51). All hippocampal subregion volumes were highly heritable (h(2)=0.67-0.91). Our findings indicate that eleven of the twelve human hippocampal subregions segmented using FreeSurfer version 6.0 may serve as reliable and informative quantitative phenotypes for future multi-site imaging genetics initiatives such as those of the ENIGMA consortium.

Published

2016

86. Heritability of Hippocampal Formation Sub-region Volumes

Author

Greenspan, Kiefer S, Arakelian, Claire R, and van Erp, Theo GM

Subjects

Biological Psychology, Psychology, Mental Health, Brain Disorders, Neurosciences, Genetics, Aging, Clinical Research, 2.1 Biological and endogenous factors, Aetiology, Human Connectome Project, heritability, hippocampal formation, subfield, subregion, twin

Abstract

Hippocampal formation (HF) volume and episodic memory performance are substantially heritable, but HF subregion heritability estimates and their possible shared genetic variance with episodic memory performance remain to be determined. This study provides heritability estimates for hippocampal subregions (e.g, Cornu Amonis, Subiculum, Parasubiculum, Molecular and Granule Cell Layers of the Dentate Gryus) and Total HF volumes obtained using FreeSurfer 6.0. In addition, this study assesses the heritability of object sequence and verbal episodic memory performance, and the amount of shared genetic variance between HF subregions and Total HF volume and episodic memory performance. HF volumes were obtained from high-resolution brain scans from a sample of 499 siblings (mean age±SD=30.0±3.1, 203 men), including 51 monozygotic and 46 dizygotic twin pairs and 305 non-twin siblings, collected by the Human Connectome Project (www.humanconnectome.org). Heritability estimates for HF subregions ranged from 0.42-0.87 and shared genetic variance of HF subregions with hippocampal volume was substantial (mean=0.79, range=0.50-0.98). HF subregion volumes residualized for Total HF and percent HF subregion volumes were also found to be substantially heritable (range=0.04-0.86 and 0.07-0.84, respectively). Verbal (h2=0.47) but not object sequence episodic memory was found to be significantly heritable; though the amount of shared genetic variance between HF subregions and verbal episodic memory was low (mean=0.10, range=0.01-0.20). These findings suggest that HF subregion volumes are heritable and can be used as quantitative phenotypes in genetic association studies. The low shared genetic variance between HF subregions and verbal episodic memory suggests that quantitative trait analyses may not benefit from including both HF volume and episodic memory as bivariate traits in healthy individuals. The extent to which HF subregion volumes share genetic variance with neuropsychiatric disorders, and as such add value to our ability to identify genetic risk loci for these disorders, remains to be determined.

Published

2016

87. The Function Biomedical Informatics Research Network Data Repository.

Author

Keator, David B, van Erp, Theo GM, Turner, Jessica A, Glover, Gary H, Mueller, Bryon A, Liu, Thomas T, Voyvodic, James T, Rasmussen, Jerod, Calhoun, Vince D, Lee, Hyo Jong, Toga, Arthur W, McEwen, Sarah, Ford, Judith M, Mathalon, Daniel H, Diaz, Michele, O'Leary, Daniel S, Jeremy Bockholt, H, Gadde, Syam, Preda, Adrian, Wible, Cynthia G, Stern, Hal S, Belger, Aysenil, McCarthy, Gregory, Ozyurt, Burak, Potkin, Steven G, and FBIRN

Subjects

FBIRN, Humans, Magnetic Resonance Imaging, Information Dissemination, Psychotic Disorders, Schizophrenia, Research, Biomedical Research, Reference Values, Medical Informatics, Databases, Factual, Adolescent, Adult, Aged, Middle Aged, Female, Male, Young Adult, Neuroimaging, Healthy Volunteers, Clinical Research, Mental Health, Networking and Information Technology R&D (NITRD), Neurosciences, Bioengineering, Neurological, Medical and Health Sciences, Psychology and Cognitive Sciences, Neurology & Neurosurgery

Abstract

The Function Biomedical Informatics Research Network (FBIRN) developed methods and tools for conducting multi-scanner functional magnetic resonance imaging (fMRI) studies. Method and tool development were based on two major goals: 1) to assess the major sources of variation in fMRI studies conducted across scanners, including instrumentation, acquisition protocols, challenge tasks, and analysis methods, and 2) to provide a distributed network infrastructure and an associated federated database to host and query large, multi-site, fMRI and clinical data sets. In the process of achieving these goals the FBIRN test bed generated several multi-scanner brain imaging data sets to be shared with the wider scientific community via the BIRN Data Repository (BDR). The FBIRN Phase 1 data set consists of a traveling subject study of 5 healthy subjects, each scanned on 10 different 1.5 to 4 T scanners. The FBIRN Phase 2 and Phase 3 data sets consist of subjects with schizophrenia or schizoaffective disorder along with healthy comparison subjects scanned at multiple sites. In this paper, we provide concise descriptions of FBIRN's multi-scanner brain imaging data sets and details about the BIRN Data Repository instance of the Human Imaging Database (HID) used to publicly share the data.

Published

2016

88. Neuropsychological profile in adult schizophrenia measured with the CMINDS

Author

van Erp, Theo GM, Preda, Adrian, Turner, Jessica A, Callahan, Shawn, Calhoun, Vince D, Bustillo, Juan R, Lim, Kelvin O, Mueller, Bryon, Brown, Gregory G, Vaidya, Jatin G, McEwen, Sarah, Belger, Aysenil, Voyvodic, James, Mathalon, Daniel H, Nguyen, Dana, Ford, Judith M, Potkin, Steven G, and FBIRN

Subjects

Biomedical and Clinical Sciences, Applied and Developmental Psychology, Biological Psychology, Clinical and Health Psychology, Psychology, Pharmacology and Pharmaceutical Sciences, Neurosciences, Mental Health, Schizophrenia, Behavioral and Social Science, Brain Disorders, Basic Behavioral and Social Science, Clinical Research, 2.1 Biological and endogenous factors, Aetiology, Mental health, Adult, Attention, Cognition, Cognition Disorders, Female, Healthy Volunteers, Humans, Male, Memory, Short-Term, Middle Aged, Neuropsychological Tests, Problem Solving, Schizophrenic Psychology, Sex Factors, Spatial Learning, Thinking, Verbal Learning, psychosis, neuropsychology, FBIRN, MATRICS, MCCB, Memory, Neuropsychology, Psychosis, Sex, Speed of processing, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry, Clinical sciences, Clinical and health psychology

Abstract

Schizophrenia neurocognitive domain profiles are predominantly based on paper-and-pencil batteries. This study presents the first schizophrenia domain profile based on the Computerized Multiphasic Interactive Neurocognitive System (CMINDS(®)). Neurocognitive domain z-scores were computed from computerized neuropsychological tests, similar to those in the Measurement and Treatment Research to Improve Cognition in Schizophrenia Consensus Cognitive Battery (MCCB), administered to 175 patients with schizophrenia and 169 demographically similar healthy volunteers. The schizophrenia domain profile order by effect size was Speed of Processing (d=-1.14), Attention/Vigilance (d=-1.04), Working Memory (d=-1.03), Verbal Learning (d=-1.02), Visual Learning (d=-0.91), and Reasoning/Problem Solving (d=-0.67). There were no significant group by sex interactions, but overall women, compared to men, showed advantages on Attention/Vigilance, Verbal Learning, and Visual Learning compared to Reasoning/Problem Solving on which men showed an advantage over women. The CMINDS can readily be employed in the assessment of cognitive deficits in neuropsychiatric disorders; particularly in large-scale studies that may benefit most from electronic data capture.

Published

2015

89. Neural Correlates of Schizophrenia Negative Symptoms: Distinct Subtypes Impact Dissociable Brain Circuits.

Author

Shaffer, Joseph J, Peterson, Michael J, McMahon, Mary Agnes, Bizzell, Joshua, Calhoun, Vince, van Erp, Theo GM, Ford, Judith M, Lauriello, John, Lim, Kelvin O, Manoach, Dara S, McEwen, Sarah C, Mathalon, Daniel H, O'Leary, Daniel, Potkin, Steven G, Preda, Adrian, Turner, Jessica, Voyvodic, Jim, Wible, Cynthia G, and Belger, Aysenil

Subjects

Auditory oddball, Functional Biomedical Informatics Research Network, Functional magnetic resonance imaging, Negative symptoms, Schizophrenia, Brain Disorders, Behavioral and Social Science, Clinical Research, Neurosciences, Mental Health, Serious Mental Illness, Underpinning research, Aetiology, 2.1 Biological and endogenous factors, 1.1 Normal biological development and functioning, Neurological, Mental health

Abstract

BackgroundThe negative symptoms of schizophrenia include deficits in emotional expression and motivation. These deficits are stable over the course of illness and respond poorly to current medications. Previous studies have focused on negative symptoms as a single category; however, individual symptoms might be related to separate neurological disturbances. We analyzed data from the Functional Biomedical Informatics Research Network dataset to explore the relationship between individual negative symptoms and functional brain activity during an auditory oddball task.MethodsFunctional magnetic resonance imaging was conducted on 89 schizophrenia patients and 106 healthy controls during a two-tone auditory oddball task. Blood oxygenation level-dependent (BOLD) signal during the target tone was correlated with severity of five negative symptom domains from the Scale for the Assessment of Negative Symptoms.ResultsThe severity of alogia, avolition/apathy and anhedonia/asociality was negatively correlated with BOLD activity in distinct sets of brain regions associated with processing of the target tone, including basal ganglia, thalamus, insular cortex, prefrontal cortex, posterior cingulate and parietal cortex.ConclusionsIndividual symptoms were related to different patterns of functional activation during the oddball task, suggesting that individual symptoms might arise from distinct neural mechanisms. This work has potential to inform interventions that target these symptom-related neural disruptions.

Published

2015

90. Functional magnetic resonance imaging of motor cortex activation in schizophrenia.

Author

Lee, Hyo Jong, Preda, Adrian, Ford, Judith M, Mathalon, Daniel H, Keator, David B, van Erp, Theo GM, Turner, Jessica A, and Potkin, Steven G

Subjects

Motor Cortex, Visual Cortex, Humans, Magnetic Resonance Imaging, Radiography, Brain Mapping, Case-Control Studies, Schizophrenia, Adult, Aged, Middle Aged, Female, Male, Young Adult, Healthy Volunteers, Functional MRI, Laterality Quotient, Motor Dysfunction, Power Analysis, Brain Disorders, Neurosciences, Mental Health, Clinical Research, Aetiology, 2.1 Biological and endogenous factors, Mental health, General & Internal Medicine

Abstract

Previous fMRI studies of sensorimotor activation in schizophrenia have found in some cases hypoactivity, no difference, or hyperactivity when comparing patients with controls; similar disagreement exists in studies of motor laterality. In this multi-site fMRI study of a sensorimotor task in individuals with chronic schizophrenia and matched healthy controls, subjects responded with a right-handed finger press to an irregularly flashing visual checker board. The analysis includes eighty-five subjects with schizophrenia diagnosed according to the DSM-IV criteria and eighty-six healthy volunteer subjects. Voxel-wise statistical parametric maps were generated for each subject and analyzed for group differences; the percent Blood Oxygenation Level Dependent (BOLD) signal changes were also calculated over predefined anatomical regions of the primary sensory, motor, and visual cortex. Both healthy controls and subjects with schizophrenia showed strongly lateralized activation in the precentral gyrus, inferior frontal gyrus, and inferior parietal lobule, and strong activations in the visual cortex. There were no significant differences between subjects with schizophrenia and controls in this multi-site fMRI study. Furthermore, there was no significant difference in laterality found between healthy controls and schizophrenic subjects. This study can serve as a baseline measurement of schizophrenic dysfunction in other cognitive processes.

Published

2015

91. Contributions of Feature Binding During Encoding and Functional Connectivity of the Medial Temporal Lobe Structures to Episodic Memory Deficits Across the Prodromal and First-Episode Phases of Schizophrenia.

Author

Haut, Kristen M, van Erp, Theo GM, Knowlton, Barbara, Bearden, Carrie E, Subotnik, Kenneth, Ventura, Joseph, Nuechterlein, Keith H, and Cannon, Tyrone D

Subjects

functional imaging, memory, neuroimaging, psychotic disorders, schizophrenia, Mental Health, Serious Mental Illness, Clinical Research, Neurosciences, Prevention, Schizophrenia, Clinical Trials and Supportive Activities, Brain Disorders, 2.1 Biological and endogenous factors, 2.3 Psychological, social and economic factors, Psychology

Abstract

Patients with and at risk for psychosis may have difficulty using associative strategies to facilitate episodic memory encoding and recall. In parallel studies, patients with first-episode schizophrenia (n = 27) and high psychosis risk (n = 28) compared with control participants (n = 22 and n = 20, respectively) underwent functional MRI during a remember-know memory task. Psychophysiological interaction analyses, using medial temporal lobe (MTL) structures as regions of interest, were conducted to measure functional connectivity patterns supporting successful episodic memory. During encoding, patients with first-episode schizophrenia demonstrated reduced functional coupling between MTL regions and regions involved in stimulus representations, stimulus selection, and cognitive control. Relative to control participants and patients with high psychosis risk who did not convert to psychosis, patients with high psychosis risk who later converted to psychosis also demonstrated reduced connectivity between MTL regions and auditory-verbal and visual-association regions. These results suggest that episodic memory deficits in schizophrenia are related to inefficient recruitment of cortical connections involved in associative memory formation; such deficits precede the onset of psychosis among those individuals at high clinical risk.

Published

2015

92. Multidimensional frequency domain analysis of full-volume fMRI reveals significant effects of age, gender, and mental illness on the spatiotemporal organization of resting-state brain activity

Author

Miller, Robyn L, Erhardt, Erik B, Agcaoglu, Oktay, Allen, Elena A, Michael, Andrew M, Turner, Jessica A, Bustillo, Juan, Ford, Judith M, Mathalon, Daniel H, Van Erp, Theo GM, Potkin, Steven, Preda, Adrian, Pearlson, Godfrey, and Calhoun, Vince D

Subjects

Biological Psychology, Psychology, Clinical Research, Neurosciences, Brain Disorders, Schizophrenia, Serious Mental Illness, Mental Health, Biomedical Imaging, Bioengineering, Underpinning research, 1.1 Normal biological development and functioning, Mental health, fMRI, spatiotemporal frequency domain, schizophrenia, multidimensional Fourier transform, brain dynamics, Cognitive Sciences, Biological psychology

Abstract

Clinical research employing functional magnetic resonance imaging (fMRI) is often conducted within the connectionist paradigm, focusing on patterns of connectivity between voxels, regions of interest (ROIs) or spatially distributed functional networks. Connectivity-based analyses are concerned with pairwise correlations of the temporal activation associated with restrictions of the whole-brain hemodynamic signal to locations of a priori interest. There is a more abstract question however that such spatially granular correlation-based approaches do not elucidate: Are the broad spatiotemporal organizing principles of brains in certain populations distinguishable from those of others? Global patterns (in space and time) of hemodynamic activation are rarely scrutinized for features that might characterize complex psychiatric conditions, aging effects or gender-among other variables of potential interest to researchers. We introduce a canonical, transparent technique for characterizing the role in overall brain activation of spatially scaled periodic patterns with given temporal recurrence rates. A core feature of our technique is the spatiotemporal spectral profile (STSP), a readily interpretable 2D reduction of the native four-dimensional brain × time frequency domain that is still "big enough" to capture important group differences in globally patterned brain activation. Its power to distinguish populations of interest is demonstrated on a large balanced multi-site resting fMRI dataset with nearly equal numbers of schizophrenia patients and healthy controls. Our analysis reveals striking differences in the spatiotemporal organization of brain activity that correlate with the presence of diagnosed schizophrenia, as well as with gender and age. To the best of our knowledge, this is the first demonstration that a 4D frequency domain analysis of full volume fMRI data exposes clinically or demographically relevant differences in resting-state brain function.

Published

2015

93. Correction: Brown Adipose Tissue Quantification in Human Neonates Using Water-Fat Separated MRI

Author

Rasmussen, Jerod M, Entringer, Sonja, Nguyen, Annie, van Erp, Theo GM, Burns, Joshua, Guijarro, Ana, Oveisi, Fariba, Swanson, James M, Piomelli, Daniele, Wadhwa, Pathik D, Buss, Claudia, and Potkin, Steven G

Subjects

General Science & Technology

Published

2014

94. A multi-site resting state fMRI study on the amplitude of low frequency fluctuations in schizophrenia.

Author

Turner, Jessica A, Damaraju, Eswar, van Erp, Theo GM, Mathalon, Daniel H, Ford, Judith M, Voyvodic, James, Mueller, Bryon A, Belger, Aysenil, Bustillo, Juan, McEwen, Sarah, Potkin, Steven G, Fbirn, and Calhoun, Vince D

Subjects

ALFF, LFO, effect size, multi-site studies, resting state fMRI, schizophrenia, Neurosciences, Cognitive Sciences, Psychology

Abstract

BackgroundThis multi-site study compares resting state fMRI amplitude of low frequency fluctuations (ALFF) and fractional ALFF (fALFF) between patients with schizophrenia (SZ) and healthy controls (HC).MethodsEyes-closed resting fMRI scans (5:38 min; n = 306, 146 SZ) were collected from 6 Siemens 3T scanners and one GE 3T scanner. Imaging data were pre-processed using an SPM pipeline. Power in the low frequency band (0.01-0.08 Hz) was calculated both for the original pre-processed data as well as for the pre-processed data after regressing out the six rigid-body motion parameters, mean white matter (WM) and cerebral spinal fluid (CSF) signals. Both original and regressed ALFF and fALFF measures were modeled with site, diagnosis, age, and diagnosis × age interactions.ResultsRegressing out motion and non-gray matter signals significantly decreased fALFF throughout the brain as well as ALFF in the cortical edge, but significantly increased ALFF in subcortical regions. Regression had little effect on site, age, and diagnosis effects on ALFF, other than to reduce diagnosis effects in subcortical regions. There were significant effects of site across the brain in all the analyses, largely due to vendor differences. HC showed greater ALFF in the occipital, posterior parietal, and superior temporal lobe, while SZ showed smaller clusters of greater ALFF in the frontal and temporal/insular regions as well as in the caudate, putamen, and hippocampus. HC showed greater fALFF compared with SZ in all regions, though subcortical differences were only significant for original fALFF.ConclusionsSZ show greater eyes-closed resting state low frequency power in frontal cortex, and less power in posterior lobes than do HC; fALFF, however, is lower in SZ than HC throughout the cortex. These effects are robust to multi-site variability. Regressing out physiological noise signals significantly affects both total and fALFF measures, but does not affect the pattern of case/control differences.

Published

2013

95. Function biomedical informatics research network recommendations for prospective multicenter functional MRI studies

Author

Glover, Gary H, Mueller, Bryon A, Turner, Jessica A, van Erp, Theo GM, Liu, Thomas T, Greve, Douglas N, Voyvodic, James T, Rasmussen, Jerod, Brown, Gregory G, Keator, David B, Calhoun, Vince D, Lee, Hyo Jong, Ford, Judith M, Mathalon, Daniel H, Diaz, Michele, O'Leary, Daniel S, Gadde, Syam, Preda, Adrian, Lim, Kelvin O, Wible, Cynthia G, Stern, Hal S, Belger, Aysenil, McCarthy, Gregory, Ozyurt, Burak, and Potkin, Steven G

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Neurosciences, Clinical Research, Biomedical Imaging, Biomedical Research, Community Networks, Databases, Factual, Humans, Information Storage and Retrieval, Magnetic Resonance Imaging, Medical Informatics, Prospective Studies, Radiology Information Systems, United States, functional magnetic resonance imaging, fMRI, multicenter, multisite, FIRST Biomedical Informatics Research Network, FBIRN, Physical Sciences, Engineering, Medical and Health Sciences, Nuclear Medicine & Medical Imaging, Clinical sciences

Abstract

This report provides practical recommendations for the design and execution of multicenter functional MRI (MC-fMRI) studies based on the collective experience of the Function Biomedical Informatics Research Network (FBIRN). The study was inspired by many requests from the fMRI community to FBIRN group members for advice on how to conduct MC-fMRI studies. The introduction briefly discusses the advantages and complexities of MC-fMRI studies. Prerequisites for MC-fMRI studies are addressed before delving into the practical aspects of carefully and efficiently setting up a MC-fMRI study. Practical multisite aspects include: (i) establishing and verifying scan parameters including scanner types and magnetic fields, (ii) establishing and monitoring of a scanner quality program, (iii) developing task paradigms and scan session documentation, (iv) establishing clinical and scanner training to ensure consistency over time, (v) developing means for uploading, storing, and monitoring of imaging and other data, (vi) the use of a traveling fMRI expert, and (vii) collectively analyzing imaging data and disseminating results. We conclude that when MC-fMRI studies are organized well with careful attention to unification of hardware, software and procedural aspects, the process can be a highly effective means for accessing a desired participant demographics while accelerating scientific discovery.

Published

2012

96. A system architecture for sharing de-identified, research-ready brain scans and health information across clinical imaging centers.

Author

Chervenak, Ann L, van Erp, Theo GM, Kesselman, Carl, D'Arcy, Mike, Sobell, Janet, Keator, David, Dahm, Lisa, Murry, Jim, Law, Meng, Hasso, Anton, Ames, Joseph, Macciardi, Fabio, and Potkin, Steven G

Subjects

Brain, Humans, Brain Diseases, Information Dissemination, Internet, Medical Informatics, Information Storage and Retrieval, Radiology Information Systems, Networking and Information Technology R&D (NITRD), Biomedical Imaging, Clinical Research, Neurosciences, Patient Safety, Rare Diseases, Brain Disorders, 4.2 Evaluation of markers and technologies, Detection, screening and diagnosis, 4.1 Discovery and preclinical testing of markers and technologies, Neurological, Library and Information Studies, Public Health and Health Services

Abstract

Progress in our understanding of brain disorders increasingly relies on the costly collection of large standardized brain magnetic resonance imaging (MRI) data sets. Moreover, the clinical interpretation of brain scans benefits from compare and contrast analyses of scans from patients with similar, and sometimes rare, demographic, diagnostic, and treatment status. A solution to both needs is to acquire standardized, research-ready clinical brain scans and to build the information technology infrastructure to share such scans, along with other pertinent information, across hospitals. This paper describes the design, deployment, and operation of a federated imaging system that captures and shares standardized, de-identified clinical brain images in a federation across multiple institutions. In addition to describing innovative aspects of the system architecture and our initial testing of the deployed infrastructure, we also describe the Standardized Imaging Protocol (SIP) developed for the project and our interactions with the Institutional Review Board (IRB) regarding handling patient data in the federated environment.

Published

2012

97. Deep multimodal predictome for studying mental disorders.

Author

Rahaman, Md Abdur, Rahaman, Md Abdur, Chen, Jiayu, Fu, Zening, Lewis, Noah, Iraji, Armin, van Erp, Theo GM, Calhoun, Vince D, Rahaman, Md Abdur, Rahaman, Md Abdur, Chen, Jiayu, Fu, Zening, Lewis, Noah, Iraji, Armin, van Erp, Theo GM, and Calhoun, Vince D

Abstract

Characterizing neuropsychiatric disorders is challenging due to heterogeneity in the population. We propose combining structural and functional neuroimaging and genomic data in a multimodal classification framework to leverage their complementary information. Our objectives are two-fold (i) to improve the classification of disorders and (ii) to introspect the concepts learned to explore underlying neural and biological mechanisms linked to mental disorders. Previous multimodal studies have focused on naïve neural networks, mostly perceptron, to learn modality-wise features and often assume equal contribution from each modality. Our focus is on the development of neural networks for feature learning and implementing an adaptive control unit for the fusion phase. Our mid fusion with attention model includes a multilayer feed-forward network, an autoencoder, a bi-directional long short-term memory unit with attention as the features extractor, and a linear attention module for controlling modality-specific influence. The proposed model acquired 92% (p < .0001) accuracy in schizophrenia prediction, outperforming several other state-of-the-art models applied to unimodal or multimodal data. Post hoc feature analyses uncovered critical neural features and genes/biological pathways associated with schizophrenia. The proposed model effectively combines multimodal neuroimaging and genomics data for predicting mental disorders. Interpreting salient features identified by the model may advance our understanding of their underlying etiological mechanisms.

Published

2023

98. Normative Modeling of Brain Morphometry Across the Lifespan using CentileBrain: Algorithm Benchmarking and Model Optimization

Author

Ge, Ruiyang, primary, Yu, Yuetong, additional, Qi, Yi Xuan, additional, Fan, Yunan Vera, additional, Chen, Shiyu, additional, Gao, Chuntong, additional, Haas, Shalaila S, additional, Modabbernia, Amirhossein, additional, New, Faye, additional, Agartz, Ingrid, additional, Asherson, Philip, additional, Ayesa-Arriola, Rosa, additional, Banaj, Nerisa, additional, Banaschewski, Tobias, additional, Baumeister, Sarah, additional, Bertolino, Alessandro, additional, Boomsma, Dorret I, additional, Borgwardt, Stefan, additional, Bourque, Josiane, additional, Brandeis, Daniel, additional, Breier, Alan, additional, Brodaty, Henry, additional, Brouwer, Rachel M, additional, Buckner, Randy, additional, Buitelaar, Jan K, additional, Cannon, Dara M, additional, Caseras, Xavier, additional, Cervenka, Simon, additional, Conrod, Patricia J, additional, Crespo-Facorro, Benedicto, additional, Crivello, Fabrice, additional, Crone, Eveline A, additional, de Haan, Liewe, additional, de Zubicaray, Greig I, additional, Di Giorgio, Annabella, additional, Erk, Susanne, additional, Fisher, Simon E, additional, Franke, Barbara, additional, Frodl, Thomas, additional, Glahn, David C, additional, Grotegerd, Dominik, additional, Gruber, Oliver, additional, Gruner, Patricia, additional, Gur, Raquel E, additional, Gur, Ruben C, additional, Harrison, Ben J, additional, Hatton, Sean N, additional, Hickie, Ian, additional, Howells, Fleur M, additional, Hulshoff Pol, Hilleke E, additional, Huyser, Chaim, additional, Jernigan, Terry L, additional, Jiang, Jiyang, additional, Joska, John A, additional, Kahn, Rene S, additional, Kalnin, Andrew J, additional, Kochan, Nicole A, additional, Koops, Sanne, additional, Kuntsi, Jonna, additional, Lagopoulos, Jim, additional, Lazaro, Luisa, additional, Lebedeva, Irina S, additional, Lochner, Christine, additional, Martin, Nicholas G, additional, Mazoyer, Bernard, additional, McDonald, Brenna C, additional, McDonald, Colm, additional, McMahon, Katie L, additional, Nakao, Tomohiro, additional, Nyberg, Lars, additional, Piras, Fabrizio, additional, Portella, Maria J, additional, Qiu, Jiang, additional, Roffman, Joshua L, additional, Sachdev, Perminder S, additional, Sanford, Nicole, additional, Saykin, Andrew J, additional, Satterthwaite, Theodore D, additional, Thomopolous, Sophia I, additional, Sellgren, Carl M, additional, Sim, Kang, additional, Smoller, Jordan W, additional, Soares, Jair, additional, Sommer, Iris E, additional, Spalletta, Gianfranco, additional, Stein, Dan J, additional, Tamnes, Christian K, additional, Tomyshev, Alexander S, additional, van Erp, Theo GM, additional, Tordesillas-Gutierrez, Diana, additional, Trollor, Julian N, additional, van 't Ent, Dennis, additional, van den Heuvel, Odile A, additional, van Haren, Neeltje EM, additional, Vecchio, Daniela, additional, Veltman, Dick J, additional, Wei, Dongtao, additional, Walter, Henrik, additional, Wang, Yang, additional, Weber, Bernd, additional, Wright, Margaret J, additional, Wen, Wei, additional, Westlye, Lars T, additional, Wierenga, Lara M, additional, Thompson, Paul M, additional, Williams, Steven CR, additional, Medland, Sarah, additional, Wu, Mon-Ju, additional, Yu, Kevin, additional, Jahanshad, Neda, additional, and Frangou, Sophia, additional

Published

2023

99. Heritability of multivariate gray matter measures in schizophrenia

Author

Turner, Jessica A, Calhoun, Vince D, Michael, Andrew, van Erp, Theo GM, Ehrlich, Stefan, Segall, Judith M, Gollub, Randy L, Csernansky, John, Potkin, Steven G, Ho, Beng-Choon, Bustillo, Juan, Schulz, SCharles, and Wang, Lei

Published

2012

100. FreeSurfer-based segmentation of hippocampal subfields: A review of methods and applications, with a novel quality control procedure for ENIGMA studies and other collaborative efforts.

Author

Sämann, Philipp G, Sämann, Philipp G, Iglesias, Juan Eugenio, Gutman, Boris, Grotegerd, Dominik, Leenings, Ramona, Flint, Claas, Dannlowski, Udo, Clarke-Rubright, Emily K, Morey, Rajendra A, van Erp, Theo GM, Whelan, Christopher D, Han, Laura KM, van Velzen, Laura S, Cao, Bo, Augustinack, Jean C, Thompson, Paul M, Jahanshad, Neda, Schmaal, Lianne, Sämann, Philipp G, Sämann, Philipp G, Iglesias, Juan Eugenio, Gutman, Boris, Grotegerd, Dominik, Leenings, Ramona, Flint, Claas, Dannlowski, Udo, Clarke-Rubright, Emily K, Morey, Rajendra A, van Erp, Theo GM, Whelan, Christopher D, Han, Laura KM, van Velzen, Laura S, Cao, Bo, Augustinack, Jean C, Thompson, Paul M, Jahanshad, Neda, and Schmaal, Lianne

Abstract

Structural hippocampal abnormalities are common in many neurological and psychiatric disorders, and variation in hippocampal measures is related to cognitive performance and other complex phenotypes such as stress sensitivity. Hippocampal subregions are increasingly studied, as automated algorithms have become available for mapping and volume quantification. In the context of the Enhancing Neuro Imaging Genetics through Meta Analysis Consortium, several Disease Working Groups are using the FreeSurfer software to analyze hippocampal subregion (subfield) volumes in patients with neurological and psychiatric conditions along with data from matched controls. In this overview, we explain the algorithm's principles, summarize measurement reliability studies, and demonstrate two additional aspects (subfield autocorrelation and volume/reliability correlation) with illustrative data. We then explain the rationale for a standardized hippocampal subfield segmentation quality control (QC) procedure for improved pipeline harmonization. To guide researchers to make optimal use of the algorithm, we discuss how global size and age effects can be modeled, how QC steps can be incorporated and how subfields may be aggregated into composite volumes. This discussion is based on a synopsis of 162 published neuroimaging studies (01/2013-12/2019) that applied the FreeSurfer hippocampal subfield segmentation in a broad range of domains including cognition and healthy aging, brain development and neurodegeneration, affective disorders, psychosis, stress regulation, neurotoxicity, epilepsy, inflammatory disease, childhood adversity and posttraumatic stress disorder, and candidate and whole genome (epi-)genetics. Finally, we highlight points where FreeSurfer-based hippocampal subfield studies may be optimized.

Published

2022