Changes for page SGA3 D1.5 Showcase 1

Last modified by gorkazl on 2023/11/13 14:27
From version 9.13
edited by gorkazl
on 2023/10/08 18:59
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To version 10.1
edited by gorkazl
on 2023/10/08 19:23
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81 81  (% class="wikigeneratedid" %)
82 82  == (b) Regional variability ==
83 83  
84 -Aims at demonstrating the construction of whole-brain network models of the brain's activity accounting for differences in receptor densities across cortical regions.
84 +Aims at demonstrating the construction of whole-brain network models of the brain's activity, accounting for differences in receptor densities across cortical regions.
85 85  
86 86  === Loading the data from EBRAINS ===
87 87  
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89 89  
90 90  1. Structural connectivity matrices,
91 91  1. GABAa and AMPA receptor densities for each brain region, and
92 -1. empirical resting-state fMRI data for fitting and validation of the simulations. The three datasets shall be characterised in the same parcellation.
92 +1. empirical resting-state fMRI data for fitting and validation of the simulations.
93 93  
94 -Link to the notebook:
94 +The three datasets shall be characterised in the same parcellation. Link to the notebook:
95 95  
96 96  * [[regional_variability/notebooks/1_load_data.ipynb>>https://lab.ch.ebrains.eu/hub/user-redirect/lab/tree/shared/SGA3%20D1.2%20Showcase%201/regional_variability/notebooks/1_load_data.ipynb]]
97 97  
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98 98  (% style="text-align:center" %)
99 99  [[image:download - 2022-02-10T130815.902.png||alt="region-wise gene expression heterogeneity"]]
100 100  
101 -== Fitting model parameters for models with regional bias ==
101 +=== Fitting model parameters for models with regional bias ===
102 102  
103 -A series of simulations of the whole-brain network model are launched in the EBRAINS HPC facilities in order to identify the optimal model parameters leading to simulated resting-state brain activity that best resembles the empirically observed activity. In this branch of the showcase, brain regions are simulated using the Balanced Excitation-Inhibition model which allows to tune the E-I balance for every region individually, according to the empirically observed GABA and AMPA neuroreceptor densities.
103 +A series of simulations of the whole-brain network model are launched in the EBRAINS HPC facilities in order to identify the optimal model parameters leading to simulated resting-state brain activity that best resembles the empirically observed activity. In this branch of the showcase, brain regions are simulated using the mean-field AdEx population model; specifically modified to account for the regional densities of GABAa and AMPA neuroreceptors. See the details following document.
104 104  
105 105  Link to the notebook:
106 106