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1. Moving beyond the 'CAP' of the Iceberg: Intrinsic connectivity networks in fMRI are continuously engaging and overlapping.

Author

Iraji, A, Faghiri, A, Fu, Z, Kochunov, P, Adhikari, BM, Belger, A, Ford, JM, McEwen, S, Mathalon, DH, Pearlson, GD, Potkin, SG, Preda, A, Turner, JA, Van Erp, TGM, Chang, C, and Calhoun, VD

Subjects
Brain, Nerve Net, Humans, Magnetic Resonance Imaging, Brain Mapping, Functional Neuroimaging, Activation spatial map, Co-activation patterns, Event absent time points, Event present time points, Functional connectivity, Independent component analysis, Intrinsic connectivity networks, Brain Disorders, Neurosciences, Biomedical Imaging, 1.1 Normal biological development and functioning, Underpinning research, Mental health, Neurological, Medical and Health Sciences, Psychology and Cognitive Sciences, Neurology & Neurosurgery
Abstract

Resting-state functional magnetic resonance imaging is currently the mainstay of functional neuroimaging and has allowed researchers to identify intrinsic connectivity networks (aka functional networks) at different spatial scales. However, little is known about the temporal profiles of these networks and whether it is best to model them as continuous phenomena in both space and time or, rather, as a set of temporally discrete events. Both categories have been supported by series of studies with promising findings. However, a critical question is whether focusing only on time points presumed to contain isolated neural events and disregarding the rest of the data is missing important information, potentially leading to misleading conclusions. In this work, we argue that brain networks identified within the spontaneous blood oxygenation level-dependent (BOLD) signal are not limited to temporally sparse burst moments and that these event present time points (EPTs) contain valuable but incomplete information about the underlying functional patterns. We focus on the default mode and show evidence that is consistent with its continuous presence in the BOLD signal, including during the event absent time points (EATs), i.e., time points that exhibit minimum activity and are the least likely to contain an event. Moreover, our findings suggest that EPTs may not contain all the available information about their corresponding networks. We observe distinct default mode connectivity patterns obtained from all time points (AllTPs), EPTs, and EATs. We show evidence of robust relationships with schizophrenia symptoms that are both common and unique to each of the sets of time points (AllTPs, EPTs, EATs), likely related to transient patterns of connectivity. Together, these findings indicate the importance of leveraging the full temporal data in functional studies, including those using event-detection approaches.

Published
2022

3. Characterising the adsorption process of the shigatoxigenic bacteriophage, φ24B, to its bacterial host via an essential outer-membrane protein, BamA

Author

McEwen, S. A., Allison, Heather, and McCarthy, A. J.

Subjects
570
Abstract

Escherichia coli is a common commensal organism that is present in all human digestive tracts. When E. coli is infected by a bacteriophage containing Shiga toxin genes (Stx phage), the E. coli cell is converted into a pathogen that can cause serious harm to humans in the form of Haemolytic Uraemic Syndrome (HUS) or Thrombotic, Thrombocytopaenic Purpura (TTP). It has been shown that ~70% of environmental Stx phages possess a tail that recognises an essential protein in the outer membrane of E. coli, BamA. This study presents the final proof required to demonstrate that BamA is the target of these short-tailed Stx phages and intends to dissect which epitopes of extracellular surface of BamA support phage adsorption by comparing E. coli to a phage resistant species, Pectobacterium atrosepticum. This resulted in the production of a library of 32 BamA mutants, which could be compared in an adsorption assay. The physiological effects of these mutants on the adsorption process were then examined in a fluorescence microscopy-based adsorption assay that allows the visualisation of temporal resolution of these processes. Given that BamA is conserved across all Enterobacteriaceae. There is potential for host range expansion, thereby converting more species that are currently harmless into potential human pathogens. The information obtained from this study may help in predicting which species is the next likely to become Stx phage susceptible.

Published
2018
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5. Decreased hemispheric connectivity and decreased intra- and inter- hemisphere asymmetry of resting state functional network connectivity in schizophrenia

Author

Agcaoglu, O, Miller, R, Damaraju, E, Rashid, B, Bustillo, J, Cetin, MS, Van Erp, TGM, McEwen, S, Preda, A, Ford, JM, Lim, KO, Manoach, DS, Mathalon, DH, Potkin, SG, and Calhoun, VD

Subjects
Schizophrenia, Mental Health, Clinical Research, Neurosciences, Brain Disorders, Mental health, Adolescent, Adult, Brain, Brain Mapping, Female, Functional Laterality, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Neural Pathways, Rest, Young Adult, Functional network connectivity, Laterality, Hemisphere, Lateral connectivity, Heterotopic connectivity, Homotopic connectivity, Medical and Health Sciences, Psychology and Cognitive Sciences, Experimental Psychology
Abstract

Many studies have shown that schizophrenia patients have aberrant functional network connectivity (FNC) among brain regions, suggesting schizophrenia manifests with significantly diminished (in majority of the cases) connectivity. Schizophrenia is also associated with a lack of hemispheric lateralization. Hoptman et al. (2012) reported lower inter-hemispheric connectivity in schizophrenia patients compared to controls using voxel-mirrored homotopic connectivity. In this study, we merge these two points of views together using a group independent component analysis (gICA)-based approach to generate hemisphere-specific timecourses and calculate intra-hemisphere and inter-hemisphere FNC on a resting state fMRI dataset consisting of age- and gender-balanced 151 schizophrenia patients and 163 healthy controls. We analyzed the group differences between patients and healthy controls in each type of FNC measures along with age and gender effects. The results reveal that FNC in schizophrenia patients shows less hemispheric asymmetry compared to that of the healthy controls. We also found a decrease in connectivity in all FNC types such as intra-left (L_FNC), intra-right (R_FNC) and inter-hemisphere (Inter_FNC) in the schizophrenia patients relative to healthy controls, but general patterns of connectivity were preserved in patients. Analyses of age and gender effects yielded results similar to those reported in whole brain FNC studies.

Published
2018

6. Widespread white matter microstructural differences in schizophrenia across 4322 individuals: results from the ENIGMA Schizophrenia DTI Working Group

Author

Kelly, S, Jahanshad, N, Zalesky, A, Kochunov, P, Agartz, I, Alloza, C, Andreassen, OA, Arango, C, Banaj, N, Bouix, S, Bousman, CA, Brouwer, RM, Bruggemann, J, Bustillo, J, Cahn, W, Calhoun, V, Cannon, D, Carr, V, Catts, S, Chen, J, Chen, J-X, Chen, X, Chiapponi, C, Cho, Kl K, Ciullo, V, Corvin, AS, Crespo-Facorro, B, Cropley, V, De Rossi, P, Diaz-Caneja, CM, Dickie, EW, Ehrlich, S, Fan, F-M, Faskowitz, J, Fatouros-Bergman, H, Flyckt, L, Ford, JM, Fouche, J-P, Fukunaga, M, Gill, M, Glahn, DC, Gollub, R, Goudzwaard, ED, Guo, H, Gur, RE, Gur, RC, Gurholt, TP, Hashimoto, R, Hatton, SN, Henskens, FA, Hibar, DP, Hickie, IB, Hong, LE, Horacek, J, Howells, FM, Hulshoff Pol, HE, Hyde, CL, Isaev, D, Jablensky, A, Jansen, PR, Janssen, J, Jönsson, EG, Jung, LA, Kahn, RS, Kikinis, Z, Liu, K, Klauser, P, Knöchel, C, Kubicki, M, Lagopoulos, J, Langen, C, Lawrie, S, Lenroot, RK, Lim, KO, Lopez-Jaramillo, C, Lyall, A, Magnotta, V, Mandl, RCW, Mathalon, DH, McCarley, RW, McCarthy-Jones, S, McDonald, C, McEwen, S, McIntosh, A, Melicher, T, Mesholam-Gately, RI, Michie, PT, Mowry, B, Mueller, BA, Newell, DT, O'Donnell, P, Oertel-Knöchel, V, Oestreich, L, Paciga, SA, Pantelis, C, Pasternak, O, Pearlson, G, Pellicano, GR, Pereira, A, and Pineda Zapata, J

Subjects
Neurosciences, Brain Disorders, Mental Health, Serious Mental Illness, Biomedical Imaging, Schizophrenia, Clinical Research, Mental health, Adult, Aged, Aged, 80 and over, Brain, Cohort Studies, Corpus Callosum, Diffusion Magnetic Resonance Imaging, Diffusion Tensor Imaging, Female, Humans, Image Processing, Computer-Assisted, Male, Middle Aged, White Matter, Young Adult, Biological Sciences, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry
Abstract

The regional distribution of white matter (WM) abnormalities in schizophrenia remains poorly understood, and reported disease effects on the brain vary widely between studies. In an effort to identify commonalities across studies, we perform what we believe is the first ever large-scale coordinated study of WM microstructural differences in schizophrenia. Our analysis consisted of 2359 healthy controls and 1963 schizophrenia patients from 29 independent international studies; we harmonized the processing and statistical analyses of diffusion tensor imaging (DTI) data across sites and meta-analyzed effects across studies. Significant reductions in fractional anisotropy (FA) in schizophrenia patients were widespread, and detected in 20 of 25 regions of interest within a WM skeleton representing all major WM fasciculi. Effect sizes varied by region, peaking at (d=0.42) for the entire WM skeleton, driven more by peripheral areas as opposed to the core WM where regions of interest were defined. The anterior corona radiata (d=0.40) and corpus callosum (d=0.39), specifically its body (d=0.39) and genu (d=0.37), showed greatest effects. Significant decreases, to lesser degrees, were observed in almost all regions analyzed. Larger effect sizes were observed for FA than diffusivity measures; significantly higher mean and radial diffusivity was observed for schizophrenia patients compared with controls. No significant effects of age at onset of schizophrenia or medication dosage were detected. As the largest coordinated analysis of WM differences in a psychiatric disorder to date, the present study provides a robust profile of widespread WM abnormalities in schizophrenia patients worldwide. Interactive three-dimensional visualization of the results is available at www.enigma-viewer.org.

Published
2018

7. Dynamic functional connectivity analysis reveals transient states of dysconnectivity in schizophrenia

Author

Damaraju, E, Allen, EA, Belger, A, Ford, JM, McEwen, S, Mathalon, DH, Mueller, BA, Pearlson, GD, Potkin, SG, Preda, A, Turner, JA, Vaidya, JG, van Erp, TG, and Calhoun, VD

Subjects
Biological Psychology, Biomedical and Clinical Sciences, Psychology, Brain Disorders, Serious Mental Illness, Schizophrenia, Mental Health, Neurosciences, Clinical Research, Underpinning research, 1.1 Normal biological development and functioning, Mental health, Adult, Brain, Brain Mapping, Female, Humans, Image Interpretation, Computer-Assisted, Magnetic Resonance Imaging, Male, Neural Pathways, Biological psychology, Clinical and health psychology
Abstract

Schizophrenia is a psychotic disorder characterized by functional dysconnectivity or abnormal integration between distant brain regions. Recent functional imaging studies have implicated large-scale thalamo-cortical connectivity as being disrupted in patients. However, observed connectivity differences in schizophrenia have been inconsistent between studies, with reports of hyperconnectivity and hypoconnectivity between the same brain regions. Using resting state eyes-closed functional imaging and independent component analysis on a multi-site data that included 151 schizophrenia patients and 163 age- and gender matched healthy controls, we decomposed the functional brain data into 100 components and identified 47 as functionally relevant intrinsic connectivity networks. We subsequently evaluated group differences in functional network connectivity, both in a static sense, computed as the pairwise Pearson correlations between the full network time courses (5.4 minutes in length), and a dynamic sense, computed using sliding windows (44 s in length) and k-means clustering to characterize five discrete functional connectivity states. Static connectivity analysis revealed that compared to healthy controls, patients show significantly stronger connectivity, i.e., hyperconnectivity, between the thalamus and sensory networks (auditory, motor and visual), as well as reduced connectivity (hypoconnectivity) between sensory networks from all modalities. Dynamic analysis suggests that (1), on average, schizophrenia patients spend much less time than healthy controls in states typified by strong, large-scale connectivity, and (2), that abnormal connectivity patterns are more pronounced during these connectivity states. In particular, states exhibiting cortical-subcortical antagonism (anti-correlations) and strong positive connectivity between sensory networks are those that show the group differences of thalamic hyperconnectivity and sensory hypoconnectivity. Group differences are weak or absent during other connectivity states. Dynamic analysis also revealed hypoconnectivity between the putamen and sensory networks during the same states of thalamic hyperconnectivity; notably, this finding cannot be observed in the static connectivity analysis. Finally, in post-hoc analyses we observed that the relationships between sub-cortical low frequency power and connectivity with sensory networks is altered in patients, suggesting different functional interactions between sub-cortical nuclei and sensorimotor cortex during specific connectivity states. While important differences between patients with schizophrenia and healthy controls have been identified, one should interpret the results with caution given the history of medication in patients. Taken together, our results support and expand current knowledge regarding dysconnectivity in schizophrenia, and strongly advocate the use of dynamic analyses to better account for and understand functional connectivity differences.

Published
2014

39. Moving Beyond the ‘CAP’ of the Iceberg: Intrinsic Connectivity Networks in fMRI are Continuously Engaging and Overlapping

Author

Iraji, A., primary, Faghiri, A., additional, Fu, Z., additional, Kochunov, P., additional, Adhikari, B. M., additional, Belger, A., additional, Ford, J.M., additional, McEwen, S., additional, Mathalon, D.H., additional, Pearlson, G.D., additional, Potkin, S.G., additional, Preda, A., additional, Turner, J.A., additional, van Erp, T.G.M., additional, Chang, C., additional, and Calhoun, V.D., additional

Published
2021
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40. Surveillance of molecular markers of Plasmodium falciparum artemisinin resistance (kelch13 mutations) in Papua New Guinea between 2016 and 2018

Author

Lautu-Gumal, D, Razook, Z, Koleala, T, Nate, E, McEwen, S, Timbi, D, Hetzel, MW, Lavu, E, Tefuarani, N, Makita, L, Kazura, J, Mueller, I, Pomat, W, Laman, M, Robinson, LJ, Barry, Alyssa, Lautu-Gumal, D, Razook, Z, Koleala, T, Nate, E, McEwen, S, Timbi, D, Hetzel, MW, Lavu, E, Tefuarani, N, Makita, L, Kazura, J, Mueller, I, Pomat, W, Laman, M, Robinson, LJ, and Barry, Alyssa

Published
2021

42. Multi-Spatial Scale Dynamic Interactions between Functional Sources Reveal Sex-Specific Changes in Schizophrenia

Author

Iraji, A., primary, Faghiri, A., additional, Fu, Z., additional, Rachakonda, S., additional, Kochunov, P., additional, Belger, A., additional, Ford, J.M., additional, McEwen, S., additional, Mathalon, D.H., additional, Mueller, B.A., additional, Pearlson, G.D., additional, Potkin, S.G., additional, Preda, A., additional, Turner, J.A., additional, van Erp, T.G.M., additional, and Calhoun, V.D., additional

Published
2021
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43. Acquisition of resistance to extended-spectrum cephalosporins by Salmonella entirica subsp. enterica serovar Newport and Escherichia coli in the turkey poult intestinal tract

Author

Poppe, C., Martin, L. C., Gyles, C. L., Reid-Smith, R., Boerlin, P., Forward, K. R., Prescott, J. F., and McEwen, S. A.

Subjects
Drug resistance in microorganisms -- Research, Escherichia coli -- Genetic aspects, Salmonella enteritidis -- Genetic aspects, Cephaloridine -- Research, Cephalosporins -- Research, Moxalactam -- Research, Biological sciences
Abstract

The mechanisms and frequency of transfer of resistance of the extended-spectrum cephalosporins (ESCs) by Escherichia coli and the acquisition of such resistance by antimicrobial-susceptible Salmonella serovar Newport bacteria in the turkey poult intestinal tract are examined. It is demonstrated that Salmonella serovar Newport can become resistant to ESCs and other antibiotics by acquiring a conjugative drug resistance plasmid from E. coli in the intestines.

Published
2005

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

Author

van Erp, T.G.M., McEwen, S., Addington, J., McGlashan, T., Mathalon, D.H., Woods, S.W., Cannon, T.D., Perkins, D., Walker, E., Cadenhead, K., Cornblatt, B., Tsuang, M., North American Prodrome Longitudinal Study (NAPLS) Consortium, Allswede, D., Seidman, L.J., Chung, Y., and Bearden, C.E.

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
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47. Adding a neuroanatomical biomarker to an individualized risk calculator for psychosis: A proof-of-concept study

Author

Perkins, D., Cadenhead, K., Bearden, C.E., van Erp, T.G.M., Chung, Y., Woods, S.W., Cannon, T.D., Walker, E., Seidman, L.J., North American Prodrome Longitudinal Study Consortium, Cornblatt, B., Tsuang, M., McEwen, S., Addington, J., Mathalon, D.H., and McGlashan, T.

Abstract

In a recent study, a neuroanatomical-based age prediction model observed neuromaturational deviance among clinical high-risk individuals who developed psychosis. Here we aimed to investigate whether incorporating ���brain age gap��� (discrepancy between neuroanatomical-based predicted age and chronological age) to the North American Prodromal Longitudinal Study risk calculator would enhance prediction of psychosis conversion. The effect of brain age gap was significant (HR = 1.21, P = 0.047), but its predictive variance was found to overlap entirely with age at ascertainment, consistent with the view that greater brain-age gap and earlier age at onset of prodromal symptoms are correlated indicators of insidious-onset forms of psychosis.

Published
2019
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49. Use of machine learning to determine deviance in neuroanatomical maturity associated with future psychosis in youths at clinically high risk

Author

Addington, J., North American Prodrome Longitudinal Study (NAPLS) Consortium, Cadenhead, K., Woods, S.W., Walker, E., Cannon, T.D., Tsuang, M., Pediatric Imaging, Neurocognition, and Genetics (PING) Study Consortium, Mathalon, D.H., Bearden, C.E., McGlashan, T., Cornblatt, B., McEwen, S., Van Erp, T.G.M., Perkins, D., Seidman, L.J., and Chung, Y.

Abstract

Importance: Altered neurodevelopmental trajectories are thought to reflect heterogeneity in the pathophysiologic characteristics of schizophrenia, but whether neural indicators of these trajectories are associated with future psychosis is unclear. Objective: To investigate distinct neuroanatomical markers that can differentiate aberrant neurodevelopmental trajectories among clinically high-risk (CHR) individuals. Design, Setting, and Participants: In this prospective longitudinal multicenter study, a neuroanatomical-based age prediction model was developed using a supervised machine learning technique with T1-weighted magnetic resonance imaging scans of 953 healthy controls 3 to 21 years of age from the Pediatric Imaging, Neurocognition, and Genetics (PING) study and then applied to scans of 275 CHR individuals (including 39 who developed psychosis) and 109 healthy controls 12 to 21 years of age from the North American Prodrome Longitudinal Study 2 (NAPLS 2) for external validation and clinical application. Scans from NAPLS 2 were collected from January 15, 2010, to April 30, 2012. Main Outcomes and Measures: Discrepancy between neuroanatomical-based predicted age (hereafter referred to as brain age) and chronological age. Results: The PING-derived model (460 females and 493 males; age range, 3-21 years) accurately estimated the chronological ages of the 109 healthy controls in the NAPLS 2 (43 females and 66 males; age range, 12-21 years), providing evidence of independent external validation. The 275 CHR individuals in the NAPLS 2 (111 females and 164 males; age range, 12-21 years) showed a significantly greater mean (SD) gap between model-predicted age and chronological age (0.64 [2.16] years) compared with healthy controls (P = .008). This outcome was significantly moderated by chronological age, with brain age systematically overestimating the ages of CHR individuals who developed psychosis at ages 12 to 17 years but not the brain ages of those aged 18 to 21 years. Greater brain age deviation was associated with a higher risk for developing psychosis (F = 3.70; P = .01) and a pattern of stably poor functioning over time, but only among younger CHR adolescents. Previously reported evidence of accelerated reduction in cortical thickness among CHR individuals who developed psychosis was found to apply only to those who were 18 years of age or older. Conclusions and Relevance: These results are consistent with the view that neuroanatomical markers of schizophrenia may help to explain some of the heterogeneity of this disorder, particularly with respect to early vs later age of onset of psychosis, with younger and older individuals having differing intercepts and trajectories in structural brain parameters as a function of age. The results also suggest that baseline neuroanatomical measures are likely to be useful in estimating onset of psychosis, especially (or only) among CHR individuals with an earlier age of onset of prodromal symptoms.

Published
2018
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