The sensitivity of network statistics to incomplete electrode sampling on intracranial EEG
暂无分享,去创建一个
Brian Litt | Russell T. Shinohara | Danielle S. Bassett | Kathryn A. Davis | Preya Shah | Fadi Mikhail | John M. Bernabei | Lohith G. Kini | Erin C. Conrad | Ammar Kheder | D. Bassett | B. Litt | R. Shinohara | K. Davis | L. Kini | E. Conrad | J. Bernabei | Fadi Mikhail | A. Kheder | Preya Shah
[1] Brian Litt,et al. Virtual cortical resection reveals push-pull network control preceding seizure evolution , 2016 .
[2] Sjoerd B. Vos,et al. Node abnormality predicts seizure outcome and relates to long-term relapse after epilepsy surgery , 2019, bioRxiv.
[3] John Skvoretz,et al. Node centrality in weighted networks: Generalizing degree and shortest paths , 2010, Soc. Networks.
[4] J. Gold,et al. On the nature and use of models in network neuroscience , 2018, Nature Reviews Neuroscience.
[5] R. Fisher. FREQUENCY DISTRIBUTION OF THE VALUES OF THE CORRELATION COEFFIENTS IN SAMPLES FROM AN INDEFINITELY LARGE POPU;ATION , 1915 .
[6] Tao Zhou,et al. Predicting missing links and identifying spurious links via likelihood analysis , 2016, Scientific Reports.
[7] Huafu Chen,et al. Default mode network abnormalities in mesial temporal lobe epilepsy: A study combining fMRI and DTI , 2011, Human brain mapping.
[8] M. Greicius,et al. Resting-state functional connectivity reflects structural connectivity in the default mode network. , 2009, Cerebral cortex.
[9] Leonard M. Freeman,et al. A set of measures of centrality based upon betweenness , 1977 .
[10] P. Holland,et al. TRANSITIVITY IN STRUCTURAL MODELS OF SMALL GROUPS , 1977 .
[11] Guido Gerig,et al. User-guided 3D active contour segmentation of anatomical structures: Significantly improved efficiency and reliability , 2006, NeuroImage.
[12] Ankit N Khambhati,et al. Virtual resection predicts surgical outcome for drug-resistant epilepsy. , 2019, Brain : a journal of neurology.
[13] Vince D. Calhoun,et al. Impact of autocorrelation on functional connectivity , 2014, NeuroImage.
[14] Gueorgi Kossinets. Effects of missing data in social networks , 2006, Soc. Networks.
[15] Beate Diehl,et al. Seizure pathways change on circadian and slower timescales in individual patients with focal epilepsy , 2019, Proceedings of the National Academy of Sciences.
[16] Brian Litt,et al. A multimodal platform for cloud-based collaborative research , 2013, 2013 6th International IEEE/EMBS Conference on Neural Engineering (NER).
[17] Alessandro Vespignani,et al. The Architecture of Complex Weighted Networks: Measurements and Models , 2007 .
[18] David Lusseau,et al. Incorporating uncertainty into the study of animal social networks , 2008, Animal Behaviour.
[19] James Moody,et al. Structural effects of network sampling coverage I: Nodes missing at random , 2013, Soc. Networks.
[20] Linyuan Lu,et al. Link Prediction in Complex Networks: A Survey , 2010, ArXiv.
[21] Duncan J. Watts,et al. Collective dynamics of ‘small-world’ networks , 1998, Nature.
[22] Thomas W. Valente,et al. The stability of centrality measures when networks are sampled , 2003, Soc. Networks.
[23] Kathryn A. Davis,et al. Data integration: Combined imaging and electrophysiology data in the cloud , 2016, NeuroImage.
[24] Brian Litt,et al. Brain Parcellation Aids in Electrode Localization in Epileptic Patients , 2011, AE-CAI.
[25] Wei Zhang,et al. Metrics of brain network architecture capture the impact of disease in children with epilepsy , 2016, NeuroImage: Clinical.
[26] C. Stam,et al. Small-world networks and epilepsy: Graph theoretical analysis of intracerebrally recorded mesial temporal lobe seizures , 2007, Clinical Neurophysiology.
[27] Viktor K. Jirsa,et al. Predicting the spatiotemporal diversity of seizure propagation and termination in human focal epilepsy , 2017, Nature Communications.
[28] O. J. Dunn. Multiple Comparisons Using Rank Sums , 1964 .
[29] P. Kwan,et al. Drug-resistant epilepsy. , 2011, The New England journal of medicine.
[30] Massimo Marchiori,et al. Error and attacktolerance of complex network s , 2004 .
[31] Danielle S. Bassett,et al. Structural, geometric and genetic factors predict interregional brain connectivity patterns probed by electrocorticography , 2019, Nature Biomedical Engineering.
[32] Yang Wang,et al. Pseudo-Bootstrap Network Analysis—an Application in Functional Connectivity Fingerprinting , 2017, Front. Hum. Neurosci..
[33] Danielle S Bassett,et al. Mapping the structural and functional network architecture of the medial temporal lobe using 7T MRI , 2018, Human brain mapping.
[34] Z. Šidák. Rectangular Confidence Regions for the Means of Multivariate Normal Distributions , 1967 .
[35] Matt Stead,et al. Long-term outcomes after nonlesional extratemporal lobe epilepsy surgery. , 2013, JAMA neurology.
[36] Thomas Wennekers,et al. From Structure to Activity: Using Centrality Measures to Predict Neuronal Activity , 2016, Int. J. Neural Syst..
[37] Linyuan Lü,et al. Toward link predictability of complex networks , 2015, Proceedings of the National Academy of Sciences.
[38] G. Vachtsevanos,et al. Epileptic Seizures May Begin Hours in Advance of Clinical Onset A Report of Five Patients , 2001, Neuron.
[39] John S. Duncan,et al. Interictal intracranial EEG for predicting surgical success: the importance of space and time. , 2019, 1909.07932.
[40] C. Schevon,et al. Seizure localization using ictal phase-locked high gamma , 2015, Neurology.
[41] Jorge Gonzalez-Martinez,et al. Is SEEG safe? A systematic review and meta‐analysis of stereo‐electroencephalography–related complications , 2016, Epilepsia.
[42] Tore Opsahl,et al. Clustering in weighted networks , 2009, Soc. Networks.
[43] Edward F. Chang,et al. Seizure outcomes in nonresective epilepsy surgery: an update , 2017, Neurosurgical Review.
[44] Edsger W. Dijkstra,et al. A note on two problems in connexion with graphs , 1959, Numerische Mathematik.
[45] Tianzi Jiang,et al. Human Brainnetome Atlas and Its Potential Applications in Brain-Inspired Computing , 2015, BrainComp.
[46] Arno Klein,et al. A reproducible evaluation of ANTs similarity metric performance in brain image registration , 2011, NeuroImage.
[47] A. Sanabria,et al. Randomized controlled trial. , 2005, World journal of surgery.
[48] Samuel B. Tomlinson,et al. Interictal network synchrony and local heterogeneity predict epilepsy surgery outcome among pediatric patients , 2017, Epilepsia.
[49] Frank Emmert-Streib,et al. Bagging Statistical Network Inference from Large-Scale Gene Expression Data , 2012, PloS one.
[50] Roger Guimerà,et al. Missing and spurious interactions and the reconstruction of complex networks , 2009, Proceedings of the National Academy of Sciences.
[51] Thomas K. Tcheng,et al. Changes in the electrocorticogram after implantation of intracranial electrodes in humans: The implant effect , 2017, Clinical Neurophysiology.
[52] Danielle S. Bassett,et al. Inter-regional ECoG correlations predicted by communication dynamics, geometry, and correlated gene expression , 2017, 1706.06088.
[53] Huafu Chen,et al. Altered Functional Connectivity and Small-World in Mesial Temporal Lobe Epilepsy , 2010, PloS one.
[54] Graeme D. Jackson,et al. Increased segregation of brain networks in focal epilepsy: An fMRI graph theory finding , 2015, NeuroImage: Clinical.
[55] Anke Schmid,et al. Psychological Testing Principles And Applications , 2016 .
[56] Brian Litt,et al. High interictal connectivity within the resection zone is associated with favorable post-surgical outcomes in focal epilepsy patients , 2018, NeuroImage: Clinical.
[57] Masahiro Kimura,et al. Resampling-Based Framework for Estimating Node Centrality of Large Social Network , 2014, Discovery Science.
[58] Roberto Spreafico,et al. Identification of the Epileptogenic Zone from Stereo-EEG Signals: A Connectivity-Graph Theory Approach , 2013, Front. Neurol..
[59] Klaus Lehnertz,et al. Evolving functional network properties and synchronizability during human epileptic seizures. , 2008, Chaos.
[60] M. H. Quenouille. NOTES ON BIAS IN ESTIMATION , 1956 .
[61] P. Mitra,et al. Analysis of dynamic brain imaging data. , 1998, Biophysical journal.
[62] M. Newman. Mathematics of networks , 2018, Oxford Scholarship Online.
[63] L. Lemieux,et al. Interictal Functional Connectivity of Human Epileptic Networks Assessed by Intracerebral EEG and BOLD Signal Fluctuations , 2011, PLoS ONE.
[64] W. Stacey,et al. On the nature of seizure dynamics. , 2014, Brain : a journal of neurology.
[65] W T Blume,et al. A randomized, controlled trial of surgery for temporal-lobe epilepsy. , 2001, The New England journal of medicine.
[66] S. Cash,et al. Predicting neurosurgical outcomes in focal epilepsy patients using computational modelling , 2016, Brain : a journal of neurology.
[67] Olaf Sporns,et al. Complex network measures of brain connectivity: Uses and interpretations , 2010, NeuroImage.
[68] V L Towle,et al. Electrocorticographic coherence patterns. , 1999, Journal of clinical neurophysiology : official publication of the American Electroencephalographic Society.
[69] M. H. Quenouille. Problems in Plane Sampling , 1949 .
[70] Joseph Galaskiewicz,et al. Estimating point centrality using different network sampling techniques , 1991 .
[71] Bin He,et al. Graph analysis of epileptogenic networks in human partial epilepsy , 2011, Epilepsia.
[72] Arian Spahiu,et al. Bootstrapping a Terrorist Network , 2010 .
[73] Kaspar Anton Schindler,et al. An optimal strategy for epilepsy surgery: Disruption of the rich-club? , 2017, PLoS Comput. Biol..
[74] Shilpa Chakravartula,et al. Complex Networks: Structure and Dynamics , 2014 .
[75] Réka Albert,et al. Structural vulnerability of the North American power grid. , 2004, Physical review. E, Statistical, nonlinear, and soft matter physics.
[76] V Latora,et al. Efficient behavior of small-world networks. , 2001, Physical review letters.
[77] Uri T Eden,et al. Emergence of Persistent Networks in Long-Term Intracranial EEG Recordings , 2011, The Journal of Neuroscience.
[78] Danielle S Bassett,et al. Cognitive fitness of cost-efficient brain functional networks , 2009, Proceedings of the National Academy of Sciences.
[79] N. Crone,et al. Network dynamics of the brain and influence of the epileptic seizure onset zone , 2014, Proceedings of the National Academy of Sciences.
[80] Brian Litt,et al. Genetic and neuroanatomical support for functional brain network dynamics in epilepsy , 2018, bioRxiv.
[81] Edward T. Bullmore,et al. Fundamentals of Brain Network Analysis , 2016 .
[82] M. Friedman. The Use of Ranks to Avoid the Assumption of Normality Implicit in the Analysis of Variance , 1937 .
[83] Brian Litt,et al. Dynamic Network Drivers of Seizure Generation, Propagation and Termination in Human Neocortical Epilepsy , 2014, PLoS Comput. Biol..
[84] Viktor K. Jirsa,et al. Individual brain structure and modelling predict seizure propagation , 2017, Brain : a journal of neurology.
[85] Hisashi Q. Higuchi. On the nature of , 1999 .
[86] Mahdi Jalili,et al. Resiliency of EEG-Based Brain Functional Networks , 2015, PloS one.
[87] Albert-László Barabási,et al. Error and attack tolerance of complex networks , 2000, Nature.
[88] M. Kramer,et al. Epilepsy as a Disorder of Cortical Network Organization , 2012, The Neuroscientist : a review journal bringing neurobiology, neurology and psychiatry.
[89] J. Engel,et al. Surgery for seizures. , 1996, The New England journal of medicine.
[90] Fabrice Bartolomei,et al. Interictal stereotactic-EEG functional connectivity in refractory focal epilepsies , 2018, Brain : a journal of neurology.
[91] David R. Bellhouse,et al. In the United Kingdom , the total annual cost of Burden of Epilepsy : The Ontario Health Survey , 2022 .