CONNECTIONS, TRACTS, FRACTALS, AND THE REST: A WORKING GUIDE TO NETWORK AND CONNECTIVITY STUDIES IN NEUROSURGERY.
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[1] T. Santarius,et al. PRACTICAL APPLICATION OF NETWORKS IN NEUROSURGERY: COMBINED 3D PRINTING, NEURONAVIGATION, AND PRE-OPERATIVE SURGICAL PLANNING. , 2020, World neurosurgery.
[2] Andrew Zalesky,et al. Building connectomes using diffusion MRI: why, how and but , 2017, NMR in biomedicine.
[3] Zeus Gracia-Tabuenca,et al. Hemispheric asymmetry and homotopy of resting state functional connectivity correlate with visuospatial abilities in school-age children , 2018, NeuroImage.
[4] Ben Jeurissen,et al. Modeling Brain Dynamics in Brain Tumor Patients Using the Virtual Brain , 2018, eNeuro.
[5] Peter F. Neher,et al. The challenge of mapping the human connectome based on diffusion tractography , 2017, Nature Communications.
[6] David K. Menon,et al. Default mode contributions to automated information processing , 2017, Proceedings of the National Academy of Sciences.
[7] Anthony Boyer,et al. Recovery of functional connectivity of the sensorimotor network after surgery for diffuse low-grade gliomas involving the supplementary motor area. , 2017, Journal of neurosurgery.
[8] Edward T. Bullmore,et al. Small-World Brain Networks Revisited , 2016, The Neuroscientist : a review journal bringing neurobiology, neurology and psychiatry.
[9] Graham L. Baum,et al. The modular organization of human anatomical brain networks: Accounting for the cost of wiring , 2016, Network Neuroscience.
[10] Thomas E. Nichols,et al. Best practices in data analysis and sharing in neuroimaging using MRI , 2017, Nature Neuroscience.
[11] John Suckling,et al. Connectome analysis for pre-operative brain mapping in neurosurgery , 2016, British journal of neurosurgery.
[12] John Suckling,et al. Graph theory analysis of complex brain networks: new concepts in brain mapping applied to neurosurgery. , 2016, Journal of neurosurgery.
[13] Olaf Sporns,et al. Network-Level Structure-Function Relationships in Human Neocortex , 2016, Cerebral cortex.
[14] Olaf Sporns,et al. Path ensembles and a tradeoff between communication efficiency and resilience in the human connectome , 2016, Brain Structure and Function.
[15] P. Fries. Rhythms for Cognition: Communication through Coherence , 2015, Neuron.
[16] S. Petersen,et al. Brain Networks and Cognitive Architectures , 2015, Neuron.
[17] Evan M. Gordon,et al. Functional System and Areal Organization of a Highly Sampled Individual Human Brain , 2015, Neuron.
[18] E. Bullmore,et al. Wiring cost and topological participation of the mouse brain connectome , 2015, Proceedings of the National Academy of Sciences.
[19] G. Tononi,et al. Rethinking segregation and integration: contributions of whole-brain modelling , 2015, Nature Reviews Neuroscience.
[20] S. Buck,et al. Solving reproducibility , 2015, Science.
[21] Monique Ernst,et al. fMRI functional connectivity applied to adolescent neurodevelopment. , 2015, Annual review of clinical psychology.
[22] M. Breakspear,et al. The connectomics of brain disorders , 2015, Nature Reviews Neuroscience.
[23] Jonathan D. Power,et al. Recent progress and outstanding issues in motion correction in resting state fMRI , 2015, NeuroImage.
[24] Krzysztof J. Gorgolewski,et al. Making big data open: data sharing in neuroimaging , 2014, Nature Neuroscience.
[25] Thomas E. Nichols,et al. Functional connectomics from resting-state fMRI , 2013, Trends in Cognitive Sciences.
[26] R. Cameron Craddock,et al. Clinical applications of the functional connectome , 2013, NeuroImage.
[27] Paul A. Taylor,et al. FATCAT: (An Efficient) Functional And Tractographic Connectivity Analysis Toolbox , 2013, Brain Connect..
[28] Mark Jenkinson,et al. The minimal preprocessing pipelines for the Human Connectome Project , 2013, NeuroImage.
[29] Noah D. Brenowitz,et al. Integrated strategy for improving functional connectivity mapping using multiecho fMRI , 2013, Proceedings of the National Academy of Sciences.
[30] Keith Heberlein,et al. Imaging human connectomes at the macroscale , 2013, Nature Methods.
[31] M. Vink,et al. Deep brain stimulation restores frontostriatal network activity in obsessive-compulsive disorder , 2013, Nature Neuroscience.
[32] E. Bullmore,et al. Imaging structural co-variance between human brain regions , 2013, Nature Reviews Neuroscience.
[33] Morten L. Kringelbach,et al. Modeling the outcome of structural disconnection on resting-state functional connectivity , 2012, NeuroImage.
[34] Daniel C. Alexander,et al. NODDI: Practical in vivo neurite orientation dispersion and density imaging of the human brain , 2012, NeuroImage.
[35] A. Toga,et al. Mapping Connectivity Damage in the Case of Phineas Gage , 2012, PloS one.
[36] N. Logothetis,et al. Direct electrical stimulation of human cortex — the gold standard for mapping brain functions? , 2011, Nature Reviews Neuroscience.
[37] P. Winkler. Extraoperative electrical mapping , 2011 .
[38] Arno Villringer,et al. Resting developments: a review of fMRI post-processing methodologies for spontaneous brain activity , 2010, Magnetic Resonance Materials in Physics, Biology and Medicine.
[39] Olaf Sporns,et al. Can structure predict function in the human brain? , 2010, NeuroImage.
[40] Olaf Sporns,et al. Complex network measures of brain connectivity: Uses and interpretations , 2010, NeuroImage.
[41] M. V. D. Heuvel,et al. Exploring the brain network: A review on resting-state fMRI functional connectivity , 2010, European Neuropsychopharmacology.
[42] M. Raichle. Two views of brain function , 2010, Trends in Cognitive Sciences.
[43] M. Raichle,et al. Disease and the brain's dark energy , 2010, Nature Reviews Neurology.
[44] Stephen M Smith,et al. Correspondence of the brain's functional architecture during activation and rest , 2009, Proceedings of the National Academy of Sciences.
[45] W. K. Simmons,et al. Circular analysis in systems neuroscience: the dangers of double dipping , 2009, Nature Neuroscience.
[46] O. Sporns,et al. Complex brain networks: graph theoretical analysis of structural and functional systems , 2009, Nature Reviews Neuroscience.
[47] E. Bullmore,et al. Endogenous multifractal brain dynamics are modulated by age, cholinergic blockade and cognitive performance , 2008, Journal of Neuroscience Methods.
[48] Chaozhe Zhu,et al. An improved approach to detection of amplitude of low-frequency fluctuation (ALFF) for resting-state fMRI: Fractional ALFF , 2008, Journal of Neuroscience Methods.
[49] John Suckling,et al. Monofractal and multifractal dynamics of low frequency endogenous brain oscillations in functional MRI , 2008, Human brain mapping.
[50] O. Sporns,et al. Mapping the Structural Core of Human Cerebral Cortex , 2008, PLoS biology.
[51] P. Thiran,et al. Mapping Human Whole-Brain Structural Networks with Diffusion MRI , 2007, PloS one.
[52] P. Hagmann,et al. Mapping complex tissue architecture with diffusion spectrum magnetic resonance imaging , 2005, Magnetic resonance in medicine.
[53] Olaf Sporns,et al. The Human Connectome: A Structural Description of the Human Brain , 2005, PLoS Comput. Biol..
[54] J. Helpern,et al. Diffusional kurtosis imaging: The quantification of non‐gaussian water diffusion by means of magnetic resonance imaging , 2005, Magnetic resonance in medicine.
[55] Mohamed-Jalal Fadili,et al. Fractional Gaussian noise, functional MRI and Alzheimer's disease , 2005, NeuroImage.
[56] Yingli Lu,et al. Regional homogeneity approach to fMRI data analysis , 2004, NeuroImage.
[57] Nikos K Logothetis,et al. Interpreting the BOLD signal. , 2004, Annual review of physiology.
[58] D. Le Bihan. Looking into the functional architecture of the brain with diffusion MRI , 2003, Nature reviews. Neuroscience.
[59] G. Edelman,et al. Theoretical neuroanatomy and the connectivity of the cerebral cortex , 2002, Behavioural Brain Research.
[60] Jeffrey M. Hausdorff,et al. Fractal dynamics in physiology: Alterations with disease and aging , 2002, Proceedings of the National Academy of Sciences of the United States of America.
[61] Luís A. Nunes Amaral,et al. From 1/f noise to multifractal cascades in heartbeat dynamics. , 2001, Chaos.
[62] Duncan J. Watts,et al. Collective dynamics of ‘small-world’ networks , 1998, Nature.
[63] B. Biswal,et al. Functional connectivity in the motor cortex of resting human brain using echo‐planar mri , 1995, Magnetic resonance in medicine.
[64] W. Penfield. The Cerebral Cortex of Man , 1950 .