All round relationship regarding node training, amplitude and you can dPLI is even exhibited within this modeled human brain community
Fig 4E and you will 4F introduce the relationship within node studies of the anatomical brain system and you will dPLI of your leader oscillators since the a band plot
Fig 4A and 4C clearly demonstrate a negative correlation between node degree and dPLI (Spearman correlation coefficient = – 0.61, p<0.01) and positive correlation between node degree and amplitude of oscillators (Spearman correlation coefficient = 0.92, p<0.01) at coupling strength S = 3. As predicted, higher degree nodes have higher amplitude and stronger incoming directionality than lower degree nodes (dPLI<0). Fig 4B and 4D show that after the perturbation (? = 1), the correlations among node degree, amplitude and dPLI disappear. The homogenized network does not produce any biases in the directionality and amplitude distribution in the modeled brain. In the anatomical brain network, the parietal-occipital regions have the higher node degrees (presented as dense and dark connections). Notably, the left and right precuneus in the parietal region have the highest node degrees (denoted with red arrows in Fig 4E), while the lower node degrees are mostly distributed in the frontal region. The functional network strongly correlates with the anatomical network. Accordingly, the two precuneus regions have the largest negative dPLI values, playing a role as the strongest target of directionality, and the typical overall network topology produces the dominant directionality from frontal region (as source; red color (dPLI>0) in the ring in Fig 4E) to the parietal-occipital region (as sink; blue color (dPLI<0) in the ring in Fig 4E). However, after perturbing the heterogeneous human network to a homogeneous functional network topology, the typical patterns in amplitude and directionality are neutralized (presented as the same green color (dPLI
Also, the brand new perturbed community topology with preferential heart interruption produces homogenized designs in the amplitude and you can directionality along the network
The Stuart-Landau model was simulated on individual anatomical mind system before ((A), (C) and (E)) and you can once ((B), (D) and you will (F)) perturbation having preferential interruption of heart nodes. This new strong negative correlations ranging from node training and you will dPLI within the (A) while the strong positive relationship ranging from node education and amplitude inside the (C) drop-off throughout the perturbed homogeneous community ((B) and (D)). Average dPLI for each and every node is calculated by the averaging the latest dPLI values of every node with respect to any other nodes. The brand new anatomical relationships various mind places try displayed inside (E) and you will (F) band plots and additionally average dPLI worth each part. The fresh nodes is lined up when you look at the teams: front lobe, central nations (also engine and you may somatosensory cortex), parietal lobe, occipital lobe, temporary lobe, limbic part, and you can Insula (Ins).