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Network Modeling Analysis in Health Informatics and Bioinformatics
Erschienen in: Network Modeling Analysis in Health Informatics and Bioinformatics 1/2019

01.12.2019 | Original Article

Using multiple network alignment for studying connectomes

verfasst von: Marianna Milano, Pietro Hiram Guzzi, Mario Cannataro

Erschienen in: Network Modeling Analysis in Health Informatics and Bioinformatics | Ausgabe 1/2019

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Abstract

A growing area in neurosciences is focused on the modelling and analysis of connectome, i.e. the set of connections among the constitutive element of the brain. Among the representations, the use of graph theory is largely used. Such discipline uses neuroimaging techniques to derive the connections among the elements. Images represent the anatomical regions of the brain and images are usually compared to an atlas to identify them, and this process is usually referred to as parcellation. It fails in the presence of disease and for brains of children. Consequently, atlas-free random brain parcellation has been proposed that is based to divide the image into regions and to model each region as a node. Then connections among regions are represented by (un)weighted edges. To improve parcellation, a set of images is taken from the same subject, and then the resulting brain is derived by comparing resulting graphs of each image. Therefore, the question of comparison of the structure of networks arises using network alignment (NA) algorithms. In this paper, we first defined the NA problem formally, then we applied three existing states of the art of multiple alignment algorithms (MNA) on diffusion MRI-derived brain networks, and we compared the performances. Our findings show that MNA algorithms may be applied.
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Literatur
Bargmann CI, Marder E (2013) From the connectome to brain function. Nat Methods 10(6):483–490CrossRef
Brugere I, Gallagher B, Berger-Wolf TY (2018) Network structure inference, a survey: motivations, methods, and applications. ACM Comput Surv 51(2):24CrossRef
Bullmore E, Sporns O (2009) Complex brain networks: graph theoretical analysis of structural and functional systems. Nat Rev Neurosci 10(3):186–198CrossRef
Ciriello G, Mina M, Guzzi PH, Cannataro M, Guerra C (2012) AlignNemo: a local network alignment method to integrate homology and topology. PLoS One 7(6):e38107CrossRef
Fornito A, Zalesky A, Breakspear M (2013) Graph analysis of the human connectome: promise, progress, and pitfalls. Neuroimage 80:426–444CrossRef
Fornito A, Zalesky A, Bullmore ET (2010) Network scaling effects in graph analytic studies of human resting-state FMRI data. Resting State Brain Act Implic Syst Neurosci 40:22
Geyer S, Weiss M, Reimann K, Lohmann G, Turner R (2011) Microstructural parcellation of the human cerebral cortex—from brodmann’s post-mortem map to in vivo mapping with high-field magnetic resonance imaging. Front Human Neurosci 5:19CrossRef
Guzzi PH, Milenković T (2017) Survey of local and global biological network alignment: the need to reconcile the two sides of the same coin. Brief Bioinform 19:472–481 (bbw132)
Ibragimov R, Malek M, Guo J, Baumbach J (2013) GEDEVO: an evolutionary graph edit distance algorithm for biological network alignment. In: OASIcs-OpenAccess series in informatics, vol 34. Schloss Dagstuhl–Leibniz-Zentrum fuer Informatik
Ibragimov R, Malek M, Baumbach J, Guo J (2014) Multiple graph edit distance: simultaneous topological alignment of multiple protein-protein interaction networks with an evolutionary algorithm. In: Proceedings of the 2014 annual conference on genetic and evolutionary computation. ACM, pp 277–284
Kiani R, Cueva CJ, Reppas JB, Peixoto D, Ryu SI, Newsome WT (2015) Natural grouping of neural responses reveals spatially segregated clusters in prearcuate cortex. Neuron 85(6):1359–1373CrossRef
Liao C-S, Kanghao L, Baym M, Singh R, Berger B (2009) Isorankn: spectral methods for global alignment of multiple protein networks. Bioinformatics 25(12):i253–i258CrossRef
Mamano N, Hayes WB (2017) SANA: simulated annealing far outperforms many other search algorithms for biological network alignment. Bioinformatics 33:2156–2164 (btx090)CrossRef
Milano M, Guzzi PH, Tymofieva O, Xu D, Hess C, Veltri P, Cannataro M (2017) An extensive assessment of network alignment algorithms for comparison of brain connectomes. BMC Bioinform 18(6):235CrossRef
Milano M, Tymofiyeva O, Xu D, Hess C, Cannataro M, Guzzi PH (2016) Using network alignment for analysis of connectomes: Experiences from a clinical dataset. In: Proceedings of the 7th ACM international conference on bioinformatics, computational biology, and health informatics. ACM, pp 649–656
Mina M, Guzzi PH (2014) Improving the robustness of local network alignment: design and extensive assessmentof a markov clustering-based approach. Comput Biol Bioinform IEEE/ACM Trans 11(3):561–572CrossRef
Mina M, Guzzi PH (2012) AlignMCL: comparative analysis of protein interaction networks through Markov clustering. In: 2012 IEEE International Conference on bioinformatics and biomedicine workshops (BIBMW). IEEE, pp 174–181
Neyshabur B, Khadem A, Hashemifar S, Arab SS (2013) NETAL: a new graph-based method for global alignment of protein–protein interaction networks. Bioinformatics 29(13):1654–1662CrossRef
Patro R, Kingsford C (2012) Global network alignment using multiscale spectral signatures. Bioinformatics 28(23):3105–3114CrossRef
Saraph V, Milenković T (2014) MAGNA: maximizing accuracy in global network alignment. Bioinformatics 30(20):2931–2940CrossRef
Shenoy-Bhangle A, Baliyan V, Kordbacheh H, Guimaraes AR, Kambadakone A (2017) Diffusion weighted magnetic resonance imaging of liver: principles, clinical applications and recent updates. World J Hepatol 9(26):1081CrossRef
Sporns O, Tononi G, Kötter R (2005) The human connectome: a structural description of the human brain. PLoS Comput Biol 1(4):e42CrossRef
Stelzl U, Worm U, Lalowski M, Haenig C, Brembeck FH, Goehler H, Stroedicke M, Zenkner M, Schoenherr A, Koeppen S et al (2005) A human protein-protein interaction network: a resource for annotating the proteome. Cell 122(6):957–968CrossRef
Sun Y, Crawford J, Tang J, Milenković T (2015) Simultaneous optimization of both node and edge conservation in network alignment via wave. In: International workshop on algorithms in bioinformatics. Springer, New York, pp 16–39MATH
Thirion B, Varoquaux G, Dohmatob E, Poline J-B (2014) Which fMRI clustering gives good brain parcellations? Front Neurosci 8:167CrossRef
Toga AW, Clark KA, Thompson PM, Shattuck DW, Van Horn JD (2012) Mapping the human connectome. Neurosurgery 71(1):1CrossRef
Tymofiyeva O, Ziv E, James Barkovich A, Hess CP, Xu D (2014) Brain without anatomy: construction and comparison of fully network-driven structural mri connectomes. PLoS One 9(5):e96196CrossRef
Vijayan V, Milenković T (2018) Multiple network alignment via multimagna++. IEEE/ACM Trans Comput Biol Bioinform 15(5):1669–1682
Xia M, He Y (2011) Magnetic resonance imaging and graph theoretical analysis of complex brain networks in neuropsychiatric disorders. Brain Connect 1(5):349–365CrossRef
Metadaten
Titel
Using multiple network alignment for studying connectomes
verfasst von
Marianna Milano
Pietro Hiram Guzzi
Mario Cannataro
Publikationsdatum
01.12.2019
Verlag
Springer Vienna
Erschienen in
Network Modeling Analysis in Health Informatics and Bioinformatics / Ausgabe 1/2019
Print ISSN: 2192-6662
Elektronische ISSN: 2192-6670
DOI
https://doi.org/10.1007/s13721-019-0182-8

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