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description Publicationkeyboard_double_arrow_right Article 2022 France, Germany, FrancePublisher:Cold Spring Harbor Laboratory Funded by:NIH | Axon, Testosterone and Me..., NIH | COINSTAC: decentralized, ..., NIH | A decentralized macro and... +12 projectsNIH| Axon, Testosterone and Mental Health during Adolescence ,NIH| COINSTAC: decentralized, scalable analysis of loosely coupled data ,NIH| A decentralized macro and micro gene-by-environment interaction analysis of substance use behavior and its brain biomarkers ,UKRI| Consortium on Vulnerability to Externalizing Disorders and Addictions [c-VEDA] ,DFG| Volition and Cognitive Control: Mechanisms, Modulators and Dysfunctions ,NIH| ENIGMA Center for Worldwide Medicine, Imaging & Genomics ,EC| STRATIFY ,NIH| ENIGMA Center for Worldwide Medicine, Imaging & Genomics ,NSF| CREST Center for Dynamic Multiscale and Multimodal Brain Mapping Over The Lifespan [D-MAP] ,NIH| ENIGMA-COINSTAC: Advanced Worldwide Transdiagnostic Analysis of Valence System Brain CircuitsPD ,SFI| The Neurobiology of Voluntary Nicotine Abstinence: Genetics, Environment and Neurocognitive Endophenotypes ,NIH| ENIGMA World Aging Center ,UKRI| Establishing causal relationships between biopsychosocial predictors and correlates of eating disorders and their mediation by neural pathways ,UKRI| Neurobiological underpinning of eating disorders: integrative biopsychosocial longitudinal analyses in adolescents ,ANR| ADODEPHarshvardhan Gazula; Kelly Rootes-Murdy; Bharath Holla; Sunitha Basodi; Zuo Zhang; Eric Verner; Ross Kelly; Pratima Murthy; Amit Chakrabarti; Debasish Basu; Subodh Bhagyalakshmi Nanjayya; Rajkumar Lenin Singh; Roshan Lourembam Singh; Kartik Kalyanram; Kamakshi Kartik; Kumaran Kalyanaraman; Krishnaveni Ghattu; Rebecca Kuriyan; Sunita Simon Kurpad; Gareth J Barker; Rose Dawn Bharath; Sylvane Desrivieres; Meera Purushottam; Dimitri Papadopoulos Orfanos; Eesha Sharma; Matthew Hickman; Mireille Toledano; Nilakshi Vaidya; Tobias Banaschewski; Arun L.W. Bokde; Herta Flor; Antoine Grigis; Hugh Garavan; Penny Gowland; Andreas Heinz; Rüdiger Brühl; Jean-Luc Martinot; Marie-Laure Paillère Martinot; Eric Artiges; Frauke Nees; Tomáš Paus; Luise Poustka; Juliane H. Fröhner; Lauren Robinson; Michael N. Smolka; Henrik Walter; Jeanne Winterer; Robert Whelan; Jessica A. Turner; Anand D. Sarwate; Sergey M. Plis; Vivek Benegal; Gunter Schumann; Vince D. Calhoun;pmid: 36434478
AbstractWith the growth of decentralized/federated analysis approaches in neuroimaging, the opportunities to study brain disorders using data from multiple sites has grown multi-fold. One such initiative is the Neuromark, a fully automated spatially constrained independent component analysis (ICA) that is used to link brain network abnormalities among different datasets, studies, and disorders while leveraging subject-specific networks. In this study, we implement the neuromark pipeline in COINSTAC, an open-source neuroimaging framework for collaborative/decentralized analysis. Decentralized analysis of nearly 2000 resting-state functional magnetic resonance imaging datasets collected at different sites across two cohorts and co-located in different countries was performed to study the resting brain functional network connectivity changes in adolescents who smoke and consume alcohol. Results showed hypoconnectivity across the majority of networks including sensory, default mode, and subcortical domains, more for alcohol than smoking, and decreased low frequency power. These findings suggest that global reduced synchronization is associated with both tobacco and alcohol use. This work demonstrates the utility and incentives associated with large-scale decentralized collaborations spanning multiple sites.
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You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
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description Publicationkeyboard_double_arrow_right Article 2022 France, Germany, FrancePublisher:Cold Spring Harbor Laboratory Funded by:NIH | Axon, Testosterone and Me..., NIH | COINSTAC: decentralized, ..., NIH | A decentralized macro and... +12 projectsNIH| Axon, Testosterone and Mental Health during Adolescence ,NIH| COINSTAC: decentralized, scalable analysis of loosely coupled data ,NIH| A decentralized macro and micro gene-by-environment interaction analysis of substance use behavior and its brain biomarkers ,UKRI| Consortium on Vulnerability to Externalizing Disorders and Addictions [c-VEDA] ,DFG| Volition and Cognitive Control: Mechanisms, Modulators and Dysfunctions ,NIH| ENIGMA Center for Worldwide Medicine, Imaging & Genomics ,EC| STRATIFY ,NIH| ENIGMA Center for Worldwide Medicine, Imaging & Genomics ,NSF| CREST Center for Dynamic Multiscale and Multimodal Brain Mapping Over The Lifespan [D-MAP] ,NIH| ENIGMA-COINSTAC: Advanced Worldwide Transdiagnostic Analysis of Valence System Brain CircuitsPD ,SFI| The Neurobiology of Voluntary Nicotine Abstinence: Genetics, Environment and Neurocognitive Endophenotypes ,NIH| ENIGMA World Aging Center ,UKRI| Establishing causal relationships between biopsychosocial predictors and correlates of eating disorders and their mediation by neural pathways ,UKRI| Neurobiological underpinning of eating disorders: integrative biopsychosocial longitudinal analyses in adolescents ,ANR| ADODEPHarshvardhan Gazula; Kelly Rootes-Murdy; Bharath Holla; Sunitha Basodi; Zuo Zhang; Eric Verner; Ross Kelly; Pratima Murthy; Amit Chakrabarti; Debasish Basu; Subodh Bhagyalakshmi Nanjayya; Rajkumar Lenin Singh; Roshan Lourembam Singh; Kartik Kalyanram; Kamakshi Kartik; Kumaran Kalyanaraman; Krishnaveni Ghattu; Rebecca Kuriyan; Sunita Simon Kurpad; Gareth J Barker; Rose Dawn Bharath; Sylvane Desrivieres; Meera Purushottam; Dimitri Papadopoulos Orfanos; Eesha Sharma; Matthew Hickman; Mireille Toledano; Nilakshi Vaidya; Tobias Banaschewski; Arun L.W. Bokde; Herta Flor; Antoine Grigis; Hugh Garavan; Penny Gowland; Andreas Heinz; Rüdiger Brühl; Jean-Luc Martinot; Marie-Laure Paillère Martinot; Eric Artiges; Frauke Nees; Tomáš Paus; Luise Poustka; Juliane H. Fröhner; Lauren Robinson; Michael N. Smolka; Henrik Walter; Jeanne Winterer; Robert Whelan; Jessica A. Turner; Anand D. Sarwate; Sergey M. Plis; Vivek Benegal; Gunter Schumann; Vince D. Calhoun;pmid: 36434478
AbstractWith the growth of decentralized/federated analysis approaches in neuroimaging, the opportunities to study brain disorders using data from multiple sites has grown multi-fold. One such initiative is the Neuromark, a fully automated spatially constrained independent component analysis (ICA) that is used to link brain network abnormalities among different datasets, studies, and disorders while leveraging subject-specific networks. In this study, we implement the neuromark pipeline in COINSTAC, an open-source neuroimaging framework for collaborative/decentralized analysis. Decentralized analysis of nearly 2000 resting-state functional magnetic resonance imaging datasets collected at different sites across two cohorts and co-located in different countries was performed to study the resting brain functional network connectivity changes in adolescents who smoke and consume alcohol. Results showed hypoconnectivity across the majority of networks including sensory, default mode, and subcortical domains, more for alcohol than smoking, and decreased low frequency power. These findings suggest that global reduced synchronization is associated with both tobacco and alcohol use. This work demonstrates the utility and incentives associated with large-scale decentralized collaborations spanning multiple sites.
add ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.more_vert add ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.