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Open Access 01-01-2019 | Original Article

Linking structural and effective brain connectivity: structurally informed Parametric Empirical Bayes (si-PEB)

Authors: Arseny A. Sokolov, Peter Zeidman, Michael Erb, Philippe Ryvlin, Marina A. Pavlova, Karl J. Friston

Published in: Brain Structure and Function | Issue 1/2019

Abstract

Despite the potential for better understanding functional neuroanatomy, the complex relationship between neuroimaging measures of brain structure and function has confounded integrative, multimodal analyses of brain connectivity. This is particularly true for task-related effective connectivity, which describes the causal influences between neuronal populations. Here, we assess whether measures of structural connectivity may usefully inform estimates of effective connectivity in larger scale brain networks. To this end, we introduce an integrative approach, capitalising on two recent statistical advances: Parametric Empirical Bayes, which provides group-level estimates of effective connectivity, and Bayesian model reduction, which enables rapid comparison of competing models. Crucially, we show that structural priors derived from high angular resolution diffusion imaging on a dynamic causal model of a 12-region network—based on functional MRI data from the same subjects—substantially improve model evidence (posterior probability 1.00). This provides definitive evidence that structural and effective connectivity depend upon each other in mediating distributed, large-scale interactions in the brain. Furthermore, this work offers novel perspectives for understanding normal brain architecture and its disintegration in clinical conditions.

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Almashaikhi T, Rheims S, Jung J, Ostrowsky-Coste K, Montavont A, De Bellescize J, Arzimanoglou A, Keo Kosal P, Guenot M, Bertrand O, Ryvlin P (2014a) Functional connectivity of insular efferences. Hum Brain Mapp 35:5279–5294CrossRefPubMedPubMedCentral

Almashaikhi T, Rheims S, Ostrowsky-Coste K, Montavont A, Jung J, De Bellescize J, Arzimanoglou A, Keo Kosal P, Guenot M, Bertrand O, Ryvlin P (2014b) Intrainsular functional connectivity in human. Hum Brain Mapp 35:2779–2788CrossRefPubMed

Behrens TE, Johansen-Berg H, Woolrich MW, Smith SM, Wheeler-Kingshott CA, Boulby PA, Barker GJ, Sillery EL, Sheehan K, Ciccarelli O, Thompson AJ, Brady JM, Matthews PM (2003) Non-invasive mapping of connections between human thalamus and cortex using diffusion imaging. Nat Neurosci 6:750–757CrossRefPubMed

Behrens TE, Berg HJ, Jbabdi S, Rushworth MF, Woolrich MW (2007) Probabilistic diffusion tractography with multiple fibre orientations: what can we gain? Neuroimage 34:144–155CrossRefPubMed

Bonnefond M, Kastner S, Jensen O (2017) Communication between brain areas based on nested oscillations. eNeuro 10:4

Breakspear M, Terry JR, Friston KJ (2003) Modulation of excitatory synaptic coupling facilitates synchronization and complex dynamics in a biophysical model of neuronal dynamics. Network 14:703–732CrossRefPubMed

Buckner RL, Krienen FM, Castellanos A, Diaz JC, Yeo BT (2011) The organization of the human cerebellum estimated by intrinsic functional connectivity. J Neurophysiol 106:2322–2345CrossRefPubMedPubMedCentral

Buckner RL, Krienen FM, Yeo BT (2013) Opportunities and limitations of intrinsic functional connectivity MRI. Nat Neurosci 16:832–837CrossRefPubMed

Catenoix H, Magnin M, Mauguiere F, Ryvlin P (2011) Evoked potential study of hippocampal efferent projections in the human brain. Clin Neurophysiol 122:2488–2497CrossRefPubMed

Cutting JE (1978) Generation of synthetic male and female walkers through manipulation of a biomechanical invariant. Perception 7:393–405CrossRefPubMed

David O, Job AS, De Palma L, Hoffmann D, Minotti L, Kahane P (2013) Probabilistic functional tractography of the human cortex. Neuroimage 80:307–317CrossRefPubMed

Dickey JM (1971) The weighted likelihood ratio, linear hypotheses on normal location parameters. Ann Math Stat 42:204–223CrossRef

Donos C, Maliia MD, Mindruta I, Popa I, Ene M, Balanescu B, Ciurea A, Barborica A (2016) A connectomics approach combining structural and effective connectivity assessed by intracranial electrical stimulation. Neuroimage 132:344–358CrossRefPubMed

Douaud G, Filippini N, Knight S, Talbot K, Turner MR (2011) Integration of structural and functional magnetic resonance imaging in amyotrophic lateral sclerosis. Brain 134:3470–3479CrossRefPubMed

Ethofer T, Gschwind M, Vuilleumier P (2011) Processing social aspects of human gaze: a combined fMRI-DTI study. Neuroimage 55:411–419CrossRefPubMed

Frank GK, Shott ME, Riederer J, Pryor TL (2016) Altered structural and effective connectivity in anorexia and bulimia nervosa in circuits that regulate energy and reward homeostasis. Transl Psychiatry 6:e932CrossRefPubMedPubMedCentral

Fratello M, Caiazzo G, Trojsi F, Russo A, Tedeschi G, Tagliaferri R, Esposito F (2017) Multi-view ensemble classification of brain connectivity images for neurodegeneration type discrimination. Neuroinformatics 15:199–213CrossRefPubMedPubMedCentral

Friston K, Penny W (2011) Post hoc Bayesian model selection. Neuroimage 56:2089–2099CrossRefPubMed

Friston KJ, Harrison L, Penny W (2003) Dynamic causal modelling. Neuroimage 19:1273–1302CrossRefPubMed

Friston K, Mattout J, Trujillo-Barreto N, Ashburner J, Penny W (2007) Variational free energy and the Laplace approximation. Neuroimage 34:220–234CrossRefPubMed

Friston KJ, Kahan J, Biswal B, Razi A (2014) A DCM for resting state fMRI. Neuroimage 94:396–407CrossRefPubMed

Friston KJ, Litvak V, Oswal A, Razi A, Stephan KE, van Wijk BC, Ziegler G, Zeidman P (2016) Bayesian model reduction and empirical Bayes for group (DCM) studies. Neuroimage 128:413–431CrossRefPubMed

Friston KJ, Preller KH, Mathys C, Cagnan H, Heinzle J, Razi A, Zeidman P (2017) Dynamic causal modelling revisited. Neuroimage

Garces P, Pereda E, Hernandez-Tamames JA, Del-Pozo F, Maestu F, Pineda-Pardo JA (2016) Multimodal description of whole brain connectivity: a comparison of resting state MEG, fMRI, and DWI. Hum Brain Mapp 37:20–34CrossRefPubMed

Greicius MD, Supekar K, Menon V, Dougherty RF (2009) Resting-state functional connectivity reflects structural connectivity in the default mode network. Cereb Cortex 19:72–78CrossRefPubMed

Heidemann RM, Anwander A, Feiweier T, Knosche TR, Turner R (2012) k-space and q-space: combining ultra-high spatial and angular resolution in diffusion imaging using ZOOPPA at 7 T. Neuroimage 60:967–978CrossRefPubMed

Hermundstad AM, Bassett DS, Brown KS, Aminoff EM, Clewett D, Freeman S, Frithsen A, Johnson A, Tipper CM, Miller MB, Grafton ST, Carlson JM (2013) Structural foundations of resting-state and task-based functional connectivity in the human brain. Proc Natl Acad Sci USA 110:6169–6174CrossRefPubMedPubMedCentral

Honey CJ, Kotter R, Breakspear M, Sporns O (2007) Network structure of cerebral cortex shapes functional connectivity on multiple time scales. Proc Natl Acad Sci USA 104:10240–10245CrossRefPubMedPubMedCentral

Honey CJ, Sporns O, Cammoun L, Gigandet X, Thiran JP, Meuli R, Hagmann P (2009) Predicting human resting-state functional connectivity from structural connectivity. Proc Natl Acad Sci USA 106:2035–2040CrossRefPubMedPubMedCentral

Isaac JT, Nicoll RA, Malenka RC (1995) Evidence for silent synapses: implications for the expression of LTP. Neuron 15:427–434CrossRefPubMed

Jbabdi S, Sotiropoulos SN, Haber SN, Van Essen DC, Behrens TE (2015) Measuring macroscopic brain connections in vivo. Nat Neurosci 18:1546–1555CrossRefPubMed

Jenkinson M, Bannister P, Brady M, Smith S (2002) Improved optimization for the robust and accurate linear registration and motion correction of brain images. Neuroimage 17:825–841CrossRefPubMed

Jones DK, Simmons A, Williams SC, Horsfield MA (1999) Non-invasive assessment of axonal fiber connectivity in the human brain via diffusion tensor MRI. Magn Reson Med 42:37–41CrossRefPubMed

Kang H, Ombao H, Fonnesbeck C, Ding Z, Morgan VL (2017) A Bayesian double fusion model for resting-state brain connectivity using joint functional and structural data. Brain Connect 7:219–227CrossRefPubMedPubMedCentral

Koch MA, Norris DG, Hund-Georgiadis M (2002) An investigation of functional and anatomical connectivity using magnetic resonance imaging. Neuroimage 16:241–250CrossRefPubMed

Leuze CW, Anwander A, Bazin PL, Dhital B, Stuber C, Reimann K, Geyer S, Turner R (2014) Layer-specific intracortical connectivity revealed with diffusion MRI. Cereb Cortex 24:328–339CrossRefPubMed

Litvak V, Garrido M, Zeidman P, Friston K (2015) Empirical Bayes for Group (DCM) studies: a reproducibility study. Front Hum Neurosci 9:670CrossRefPubMedPubMedCentral

Lo YP, O’Dea R, Crofts JJ, Han CE, Kaiser M (2015) A geometric network model of intrinsic grey-matter connectivity of the human brain. Sci Rep 5:15397CrossRefPubMedPubMedCentral

Mohammadi S, Tabelow K, Ruthotto L, Feiweier T, Polzehl J, Weiskopf N (2014) High-resolution diffusion kurtosis imaging at 3 T enabled by advanced post-processing. Front Neurosci 8:427PubMed

Mohammadi S, Carey D, Dick F, Diedrichsen J, Sereno MI, Reisert M, Callaghan MF, Weiskopf N (2015) Whole-brain in-vivo measurements of the axonal G-ratio in a group of 37 healthy volunteers. Front Neurosci 9:441CrossRefPubMedPubMedCentral

Mori S, Zhang J (2006) Principles of diffusion tensor imaging and its applications to basic neuroscience research. Neuron 51:527–539CrossRefPubMed

Motzkin JC, Newman JP, Kiehl KA, Koenigs M (2011) Reduced prefrontal connectivity in psychopathy. J Neurosci 31:17348–17357CrossRefPubMedPubMedCentral

Mueller S, Keeser D, Samson AC, Kirsch V, Blautzik J, Grothe M, Erat O, Hegenloh M, Coates U, Reiser MF, Hennig-Fast K, Meindl T (2013) Convergent findings of altered functional and structural brain connectivity in individuals with high functioning autism: a multimodal MRI study. PLoS One 8:e67329CrossRefPubMedPubMedCentral

Park HJ, Friston K (2013) Structural and functional brain networks: from connections to cognition. Science 342:1238411CrossRefPubMed

Pavlova M, Lutzenberger W, Sokolov AN, Birbaumer N, Krageloh-Mann I (2007) Oscillatory MEG response to human locomotion is modulated by periventricular lesions. Neuroimage 35:1256–1263CrossRefPubMed

Penny WD, Stephan KE, Mechelli A, Friston KJ (2004) Comparing dynamic causal models. Neuroimage 22:1157–1172CrossRefPubMed

Pineda-Pardo JA, Bruna R, Woolrich M, Marcos A, Nobre AC, Maestu F, Vidaurre D (2014) Guiding functional connectivity estimation by structural connectivity in MEG: an application to discrimination of conditions of mild cognitive impairment. Neuroimage 101:765–777CrossRefPubMed

Pineda-Pardo JA, Martinez K, Solana AB, Hernandez-Tamames JA, Colom R, del Pozo F (2015) Disparate connectivity for structural and functional networks is revealed when physical location of the connected nodes is considered. Brain Topogr 28:187–196CrossRefPubMed

Pomarol-Clotet E, Canales-Rodriguez EJ, Salvador R, Sarro S, Gomar JJ, Vila F, Ortiz-Gil J, Iturria-Medina Y, Capdevila A, McKenna PJ (2010) Medial prefrontal cortex pathology in schizophrenia as revealed by convergent findings from multimodal imaging. Mol Psychiatry 15:823–830CrossRefPubMedPubMedCentral

Razi A, Kahan J, Rees G, Friston KJ (2015) Construct validation of a DCM for resting state fMRI. Neuroimage 106:1–14CrossRefPubMed

Ritter P, Schirner M, McIntosh AR, Jirsa VK (2013) The virtual brain integrates computational modeling and multimodal neuroimaging. Brain Connect 3:121–145CrossRefPubMedPubMedCentral

Rosa MJ, Friston K, Penny W (2012) Post-hoc selection of dynamic causal models. J Neurosci Methods 208:66–78CrossRefPubMed

Sanz Leon P, Knock SA, Woodman MM, Domide L, Mersmann J, McIntosh AR, Jirsa V (2013) The virtual brain: a simulator of primate brain network dynamics. Front Neuroinform 7:10CrossRefPubMedPubMedCentral

Saur D, Schelter B, Schnell S, Kratochvil D, Kupper H, Kellmeyer P, Kummerer D, Kloppel S, Glauche V, Lange R, Mader W, Feess D, Timmer J, Weiller C (2010) Combining functional and anatomical connectivity reveals brain networks for auditory language comprehension. Neuroimage 49:3187–3197CrossRefPubMed

Schlösser RG, Nenadic I, Wagner G, Gullmar D, von Consbruch K, Kohler S, Schultz CC, Koch K, Fitzek C, Matthews PM, Reichenbach JR, Sauer H (2007) White matter abnormalities and brain activation in schizophrenia: a combined DTI and fMRI study. Schizophr Res 89:1–11CrossRefPubMed

Smith SM (2002) Fast robust automated brain extraction. Hum Brain Mapp 17:143–155CrossRefPubMedPubMedCentral

Sokolov AA, Erb M, Gharabaghi A, Grodd W, Tatagiba MS, Pavlova MA (2012) Biological motion processing: the left cerebellum communicates with the right superior temporal sulcus. Neuroimage 59:2824–2830CrossRefPubMed

Sokolov AA, Erb M, Grodd W, Pavlova MA (2014) Structural loop between the cerebellum and the superior temporal sulcus: evidence from diffusion tensor imaging. Cereb Cortex 24:626–632CrossRefPubMed

Sporns O (2014) Contributions and challenges for network models in cognitive neuroscience. Nat Neurosci 17:652–660CrossRefPubMed

Sporns O, Tononi G, Edelman GM (2000) Theoretical neuroanatomy: relating anatomical and functional connectivity in graphs and cortical connection matrices. Cereb Cortex 10:127–141CrossRefPubMed

Stephan KE, Weiskopf N, Drysdale PM, Robinson PA, Friston KJ (2007) Comparing hemodynamic models with DCM. Neuroimage 38:387–401CrossRefPubMed

Stephan KE, Tittgemeyer M, Knosche TR, Moran RJ, Friston KJ (2009) Tractography-based priors for dynamic causal models. Neuroimage 47:1628–1638CrossRefPubMed

Thomas C, Ye FQ, Irfanoglu MO, Modi P, Saleem KS, Leopold DA, Pierpaoli C (2014) Anatomical accuracy of brain connections derived from diffusion MRI tractography is inherently limited. Proc Natl Acad Sci USA 111:16574–16579CrossRefPubMedPubMedCentral

Tournier JD, Calamante F, Gadian DG, Connelly A (2004) Direct estimation of the fiber orientation density function from diffusion-weighted MRI data using spherical deconvolution. Neuroimage 23:1176–1185CrossRefPubMed

Tzourio-Mazoyer N, Landeau B, Papathanassiou D, Crivello F, Etard O, Delcroix N, Mazoyer B, Joliot M (2002) Automated anatomical labeling of activations in SPM using a macroscopic anatomical parcellation of the MNI MRI single-subject brain. Neuroimage 15:273–289CrossRefPubMed

Upadhyay J, Silver A, Knaus TA, Lindgren KA, Ducros M, Kim DS, Tager-Flusberg H (2008) Effective and structural connectivity in the human auditory cortex. J Neurosci 28:3341–3349CrossRefPubMedPubMedCentral

Van Essen DC, Smith SM, Barch DM, Behrens TE, Yacoub E, Ugurbil K, Consortium WU-MH (2013) The WU-Minn human connectome project: an overview. Neuroimage 80:62–79CrossRefPubMed

Voets NL, Adcock JE, Stacey R, Hart Y, Carpenter K, Matthews PM, Beckmann CF (2009) Functional and structural changes in the memory network associated with left temporal lobe epilepsy. Hum Brain Mapp 30:4070–4081CrossRefPubMedPubMedCentral

Xue W, Bowman FD, Pileggi AV, Mayer AR (2015) A multimodal approach for determining brain networks by jointly modeling functional and structural connectivity. Front Comput Neurosci 9:22CrossRefPubMedPubMedCentral

Yarkoni T, Poldrack RA, Nichols TE, Van Essen DC, Wager TD (2011) Large-scale automated synthesis of human functional neuroimaging data. Nat Methods 8:665–670CrossRefPubMedPubMedCentral

Title: Linking structural and effective brain connectivity: structurally informed Parametric Empirical Bayes (si-PEB)
Authors: Arseny A. Sokolov
Peter Zeidman
Michael Erb
Philippe Ryvlin
Marina A. Pavlova
Karl J. Friston
Publication date: 01-01-2019
Publisher: Springer Berlin Heidelberg
Published in: Brain Structure and Function / Issue 1/2019
Print ISSN: 1863-2653
Electronic ISSN: 1863-2661
DOI: https://doi.org/10.1007/s00429-018-1760-8

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Linking structural and effective brain connectivity: structurally informed Parametric Empirical Bayes (si-PEB)

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