Network Neuroscience (@netneurosci) Twitter Tweets • TwiCopy

Morena

@morenadevil4

9 years ago

Twitter Beğeni Hilesi

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Network Neuroscience

@netneurosci

2 years ago

Network Neuroscience (2023) 7 (1): 1–21. 3M_BANTOR: A regression framework for multitask and multisession brain network distance metrics direct.mit.edu/netn/article/7…

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Network Neuroscience

@netneurosci

2 years ago

Network Neuroscience (2023) 7 (1): 22–47. A transformer model for learning spatiotemporal contextual representation in fMRI data direct.mit.edu/netn/article/7…

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Network Neuroscience

@netneurosci

2 years ago

Network Neuroscience (2023) 7 (1): 48–72 Stability and dynamics of a spectral graph model of brain oscillations direct.mit.edu/netn/article/7… Parul Verma Sri Nagarajan Ashish Raj

Network Neuroscience (2023) 7 (1): 48–72

Stability and dynamics of a spectral graph model of brain oscillations

direct.mit.edu/netn/article/7…

<a href="/parulv1/">Parul Verma</a> <a href="/srinagarajan/">Sri Nagarajan</a> <a href="/ashishrajs/">Ashish Raj</a>

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Network Neuroscience (2023) 7 (1): 73–85. Dynamical interactions reconfigure the gradient of cortical timescales direct.mit.edu/netn/article/7… Pierpaolo Sorrentino Giovanni Rabuffo Christophe Bernard Viktor Jirsa et al

Network Neuroscience (2023) 7 (1): 73–85.

Dynamical interactions reconfigure the gradient of cortical timescales

direct.mit.edu/netn/article/7…

<a href="/PierpaSorre/">Pierpaolo Sorrentino</a> <a href="/GRabuffo/">Giovanni Rabuffo</a> <a href="/eNeuroEiC/">Christophe Bernard</a> <a href="/ViktorJirsa/">Viktor Jirsa</a> et al

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Matt Mattoni

@mattmattoni

2 years ago

So excited about our new project at Network Neuroscience Network Neuroscience with Tom Olino and David V. Smith (@dvsmith.bsky.social)! We studied heterogeneity in adolescent reward connectivity networks with GIMME. doi.org/10.1162/netn_a… (1/13)

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Network Neuroscience

@netneurosci

2 years ago

Network Neuroscience (2023) 7 (1): 86–101. Coupling of the spatial distributions between sMRI and PET reveals the progression of Alzheimer’s disease direct.mit.edu/netn/article/7…

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Network Neuroscience

@netneurosci

2 years ago

Network Neuroscience (2023) 7 (1): 102–121. Reconfigurations in brain networks upon awakening from slow wave sleep: Interventions and implications in neural communication direct.mit.edu/netn/article/7…

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Network Neuroscience

@netneurosci

2 years ago

Network Neuroscience (2023) 7 (1): 122–147. Classification and prediction of cognitive performance differences in older age based on brain network patterns using a machine learning approach direct.mit.edu/netn/article/7…

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Network Neuroscience

@netneurosci

2 years ago

Network Neuroscience (2023) 7 (1): 148–159. Graph theoretical approach to brain remodeling in multiple sclerosis direct.mit.edu/netn/article/7… Mohammad Hadi Aarabi PhD et al

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Network Neuroscience

@netneurosci

2 years ago

Network Neuroscience (2023) 7 (1): 160–183. Exploring personalized structural connectomics for moderate to severe traumatic brain injury direct.mit.edu/netn/article/7… Phoebe Imms Karen Caeyenberghs

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Network Neuroscience

@netneurosci

2 years ago

Network Neuroscience (2023) 7 (1): 184–212. The topology, stability, and instability of learning-induced brain network repertoires in schizophrenia direct.mit.edu/netn/article/7…

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Network Neuroscience

@netneurosci

2 years ago

Network Neuroscience (2023) 7 (1): 213–233. Increased structural connectivity in high schizotypy direct.mit.edu/netn/article/7…

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Network Neuroscience

@netneurosci

2 years ago

Network Neuroscience (2023) 7 (1): 234–253. 𝓗1 persistent features of the resting-state connectome in healthy subjects direct.mit.edu/netn/article/7…

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Network Neuroscience

@netneurosci

2 years ago

Network Neuroscience (2023) 7 (1): 254–268. Nonoptimal component placement of the human connectome supports variable brain dynamics direct.mit.edu/netn/article/7… Marcus Kaiser

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Network Neuroscience

@netneurosci

2 years ago

Network Neuroscience (2023) 7 (1): 269–298. Circuit analysis of the Drosophila brain using connectivity-based neuronal classification reveals organization of key communication pathways direct.mit.edu/netn/article/7…

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Network Neuroscience

@netneurosci

2 years ago

Network Neuroscience (2023) 7 (1): 299–321. Multimodal multilayer network centrality relates to executive functioning direct.mit.edu/netn/article/7… @lucasbreedt Linda Douw

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Network Neuroscience

@netneurosci

2 years ago

Network Neuroscience (2023) 7 (1): 322–350. Multiclass characterization of frontotemporal dementia variants via multimodal brain network computational inference direct.mit.edu/netn/article/7…

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Network Neuroscience

@netneurosci

2 years ago

Network Neuroscience (2023) 7 (1): 351–376. Sex differences in multilayer functional network topology over the course of aging in 37543 UK Biobank participants direct.mit.edu/netn/article/7… Mite Mijalkov

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