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To version 2.1
edited by petkoski
on 2024/05/21 10:53
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Summary

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2 2  (((
3 3  (% class="container" %)
4 4  (((
5 -= Building personalized brain network models with TVB =
5 += My Collab's Extended Title =
6 6  
7 -Spase Petkoski, Damien Depannemaecker and Pierpaolo Sorrentino
7 +My collab's subtitle
8 8  )))
9 9  )))
10 10  
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14 14  (((
15 15  = What can I find here? =
16 16  
17 -This collab contains access to the notebooks and reading materials that will be used during the EBRAINS Baltic-Nordic summer school 2024 [[https:~~/~~/lsmu.lt/en/events/ebrains/>>https://lsmu.lt/en/events/ebrains/]].
17 +* Notice how the table of contents on the right
18 +* is automatically updated
19 +* to hold this page's headers
18 18  
19 -The objective is to give to the participants an overview to building whole-brain network models with TVB. We will begin with the [[First steps of TVB>>url:https://lab.ch.ebrains.eu/hub/user-redirect/lab/tree/shared/TVB%20tutorial%3A%20first%20steps/tvb_tutorials/1_TVB_First_steps.ipynb||style="background-color: rgb(255, 255, 255);"]], where we will describe the building blocks of TVB through the paradigm of resting state activity. This will be followed by [[Modelling Epilepsy>>url:https://lab.ch.ebrains.eu/hub/user-redirect/lab/tree/shared/TVB%20tutorial%3A%20first%20steps/tvb_tutorials/2_TVB_Modelling_Epilepsy.ipynb||style="background-color: rgb(255, 255, 255);"]], where seizure propagation will be modeled. Finally, there is one tutorial describing deeper analysis of [[BOLD monitors>>url:https://lab.ch.ebrains.eu/hub/user-redirect/lab/tree/shared/TVB%20tutorial%3A%20first%20steps/tvb_tutorials/3_TVB_BOLD_digging_deeper.ipynb||style="background-color: rgb(255, 255, 255);"]]. These can all be found in the following EBRAINS lab:
21 += Who has access? =
20 20  
21 -[[https:~~/~~/lab.ch.ebrains.eu/hub/user-redirect/lab/tree/shared/TVB%20tutorial%3A%20first%20steps/tvb_tutorials>>url:https://lab.ch.ebrains.eu/hub/user-redirect/lab/tree/shared/TVB%20tutorial%3A%20first%20steps/tvb_tutorials]]
22 -
23 -= Requirements =
24 -
25 -School participants should have EBRAINS accounts to be able to access and work on the tutorials.
26 -
27 -They are also advised to install TVB locally in case of connection issues. After installation from the following link: https:~/~/www.thevirtualbrain.org/tvb/zwei/brainsimulator-software users can access many more tutorials.
28 -
29 -= Other tutorials =
30 -
31 -In addition to these notebooks, we also refer to the readers to the collab for the Showcase 1 of HBP: "Degeneracy in neuroscience - when is Big Data big enough"
32 -
33 -[[https:~~/~~/wiki.ebrains.eu/bin/view/Collabs/sga3-d1-5-showcase-1/>>url:https://wiki.ebrains.eu/bin/view/Collabs/sga3-d1-5-showcase-1/]]
34 -
35 -= References =
36 -
37 -* (((
38 -Sanz-Leon P, Knock SA, Spiegler A, Jirsa VK. [[Mathematical framework for large-scale brain network modeling in The Virtual Brain>>https://www.sciencedirect.com/science/article/pii/S1053811915000051]]. Neuroimage. 2015 May 1;111:385-430.
23 +Describe the audience of this collab.
39 39  )))
40 -* (((
41 -Schirner M, Domide L, Perdikis D, Triebkorn P, Stefanovski L, Pai R, Prodan P, Valean B, Palmer J, Langford C, Blickensdörfer A. [[Brain simulation as a cloud service: The Virtual Brain on EBRAINS>>https://www.sciencedirect.com/science/article/pii/S1053811922001021]]. NeuroImage. 2022 May 1;251:118973.
42 -)))
43 -* (((
44 -Lavanga M, Stumme J, Yalcinkaya BH, Fousek J, Jockwitz C, Sheheitli H, Bittner N, Hashemi M, Petkoski S, Caspers S, Jirsa V. [[The virtual aging brain: Causal inference supports interhemispheric dedifferentiation in healthy aging>>https://www.sciencedirect.com/science/article/pii/S1053811923005542]]. NeuroImage. 2023 Dec 1;283:120403.
45 -)))
46 -* (((
47 -Wang HE, Triebkorn P, Breyton M, Dollomaja B, Lemarechal JD, Petkoski S, Sorrentino P, Depannemaecker D, Hashemi M, Jirsa VK. [[Virtual brain twins: from basic neuroscience to clinical use>>https://academic.oup.com/nsr/article/11/5/nwae079/7616087]]. National Science Review. 2024 May;11(5):nwae079.
48 -)))
49 -)))
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