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. 2019 Mar 12;9:4187. doi: 10.1038/s41598-019-40695-3

Table 4.

Results of the graph theory analysis of resting state data.

Node Brain Region Clustering Efficiency Degree
t-statistica d b BF10 t-statistica db BF10 t-statistica db BF10
5 Frontal_Sup_Medial_R t(14) = −0.76, p = 0.462 d = −0.378 0.519 t(11.11) = −0.933, p = 0.371 d = −0.467 0.572 U = 42, p = 0.328 r = 0.328 0.433
10 Frontal_Mid_Orb_R t(14) = −1.4, p = 0.183 d = −0.701 0.81 t(14) = −1.43, p = 0.174 d = −0.715 0.832 U = 34, p = 0.878 r = 0.878 0.436
15 Cingulum_Ant_R t(14) = −0.46, p = 0.655 d = −0.228 0.459 t(14) = −0.84, p = 0.416 d = −0.419 0.541 t(14) = −0.66, p = 0.52 d = −0.33 0.496
20 Insula_R t(14) = −2.1, p = 0.055 d = −1.047 1.654 t(14) = −1.85, p = 0.086 d = −0.924 1.253 U = 24, p = 0.442 r = 0.442 0.483
29 Frontal_Sup_R t(14) = −1.8, p = 0.094 d = −0.899 1.188 t(14) = −1.86, p = 0.085 d = −0.927 1.262 U = 25, p = 0.505 r = 0.505 0.455
34 Insula_R t(14) = 0.47, p = 0.645 d = 0.236 0.461 t(14) = 0.67, p = 0.516 d = 0.334 0.497 t(14) = 0.26, p = 0.8 d = 0.129 0.438
35 Insula_R t(14) = −0.32, p = 0.757 d = −0.158 0.442 U = 32, p = 1 r = 0 0.428 U = 38, p = 0.574 r = 0.574 0.469
36 Insula_R t(14) = −1.44, p = 0.171 d = −0.721 0.84 t(14) = −1.53, p = 0.15 d = −0.762 0.905 t(14) = −0.84, p = 0.417 d = −0.418 0.541
37 Insula_R t(14) = −1.58, p = 0.136 d = −0.79 0.955 t(14) = −1.74, p = 0.104 d = −0.87 1.119 t(14) = −1.9, p = 0.078 d = −0.95 1.327
40 Insula_R t(14) = −0.18, p = 0.862 d = −0.089 0.432 t(14) = 0.08, p = 0.934 d = 0.042 0.429 U = 30, p = 0.878 r = 0.878 0.452
83 Cingulum_Ant_R t(14) = −0.65, p = 0.525 d = −0.326 0.494 t(14) = −0.65, p = 0.528 d = −0.323 0.493 t(14) = 0.58, p = 0.57 d = 0.291 0.48
92 ParaHippocampal_R t(14) = −1.16, p = 0.267 d = −0.578 0.666 t(14) = −1.15, p = 0.272 d = −0.572 0.66 t(14) = −0.46, p = 0.652 d = −0.231 0.46
93 Hippocampus_R t(14) = −1.73, p = 0.106 d = −0.865 1.107 t(14) = −2.17, p = 0.048 d = −1.085 1.805 t(14) = −2.79, p = 0.014 d = −1.394 4.013
94 Hippocampus_R U = 11, p = 0.028 r = −0.656 5.544 t(10) = −3.052, p = 0.012 d = −1.526 5.8 U = 10, p = 0.021 r = 0.021 2.288
95 ParaHippocampal_R t(14) = −1.69, p = 0.113 d = −0.847 1.067 t(14) = −1.71, p = 0.109 d = −0.855 1.085 t(9.44) = −1.946, p = 0.082 d = −0.973 1.395
96 ParaHippocampal_R t(14) = −1.7, p = 0.112 d = −0.847 1.068 t(14) = −2.25, p = 0.041 d = −1.124 1.987 t(14) = −2.2, p = 0.045 d = −1.102 1.883
97 ParaHippocampal_R t(14) = −2.11, p = 0.053 d = −1.055 1.682 t(14) = −2.24, p = 0.042 d = −1.119 1.963 t(9.53) = −2.18, p = 0.056 d = −1.09 1.829
99 Hippocampus_R t(14) = −1.74, p = 0.104 d = −0.871 1.12 U = 18, p = 0.161 r = −0.438 1.423 t(8.04) = −2.98, p = 0.017 d = −1.49 5.237
124 Putamen_R t(14) = −1.28, p = 0.222 d = −0.639 0.731 t(14) = −1.43, p = 0.174 d = −0.716 0.833 U = 36, p = 0.721 r = 0.721 0.491
126 Hippocampus_R t(14) = −0.92, p = 0.372 d = −0.461 0.568 t(14) = −0.35, p = 0.735 d = −0.173 0.445 t(14) = 0.52, p = 0.611 d = 0.26 0.469
127 Hippocampus_R t(14) = −2.44, p = 0.028 d = −1.221 2.535 t(14) = −2.15, p = 0.049 d = −1.075 1.767 t(14) = −1.15, p = 0.269 d = −0.576 0.663
134 Cingulum_Ant_L t(11.41) = −1.598, p = 0.137 d = −0.799 0.971 t(14) = −2.1, p = 0.055 d = −1.049 1.66 t(14) = −1.05, p = 0.311 d = −0.526 0.618
138 Frontal_Mid_Orb_L t(14) = −0.78, p = 0.447 d = −0.391 0.526 t(14) = −0.884, p = 0.398 d = −0.442 0.556 t(14) = 0.51, p = 0.622 d = 0.252 0.466
140 Frontal_Sup_Medial_L t(14) = −0.85, p = 0.412 d = −0.422 0.544 t(14) = −1.288, p = 0.227 d = −0.644 0.737 U = 34, p = 0.878 r = 0.878 0.433
153 Frontal_Inf_Orb_L Insula_L t(14) = −1.04, p = 0.315 d = −0.521 0.614 t(14) = −1.61, p = 0.13 d = −0.805 0.982 t(14) = −1.15, p = 0.268 d = −0.577 0.664
155 Frontal_Inf_Tri_L t(14) = −1.38, p = 0.189 d = −0.691 0.797 t(14) = −1.35, p = 0.197 d = −0.677 0.778 t(14) = −0.91, p = 0.379 d = −0.454 0.564
168 Rolandic_Oper_L t(14) = −0.53, p = 0.608 d = −0.263 0.47 t(14) = −0.05, p = 0.958 d = −0.027 0.428 t(14) = 1.76 p = 0.101 d = 0.879 1.139
169 Insula_L t(14) = −1.33, p = 0.203 d = −0.667 0.765 t(14) = −1.85, p = 0.086 d = −0.924 1.253 U = 8, p = 0.01 r = 0.01 2.02
170 Insula_L t(14) = −0.82, p = 0.428 d = −0.408 0.535 t(14) = −0.73, p = 0.478 d = −0.365 0.512 t(14) = −0.18, p = 0.861 d = −0.089 0.432
173 Insula_L t(14) = −0.81, p = 0.43 d = −0.407 0.534 t(14) = −1.13, p = 0.279 d = −0.563 0.651 t(14) = −0.61, p = 0.549 d = −0.307 0.486
219 Cingulum_Ant_L t(14) = −1.16, p = 0.266 d = −0.579 0.666 U = 21, p = 0.279 r = −0.344 0.689 U = 36, p = 0.721 r = 0.721 0.436
228 Amygdala_L t(14) = −0.85, p = 0.407 d = −0.427 0.546 t(14) = −0.9, p = 0.381 d = −0.452 0.562 t(14) = −0.92, p = 0.371 d = −0.462 0.569
229 Hippocampus_L t(9.95) = −2.467, p = 0.033 d = −1.233 2.613 t(14) = −2.68, p = 0.018 d = −1.341 3.47 t(14) = −1.58, p = 0.137 d = −0.79 0.953
230 Hippocampus_L U = 3, p = 0.001 r = −0.906 10.483 t(9.53) = −4.545, p = 0.001 d = −2.273 54.484 t(14) = −4.2, p = <0.001 d = −2.098 31.897
231 Hippocampus_L t(14) = −1.56, p = 0.141 d = −0.781 0.938 t(14) = −1.76, p = 0.101 d = −0.878 1.136 t(14) = −1.32, p = 0.207 d = −0.662 0.759
232 Hippocampus_L t(9.91) = −2.129, p = 0.059 d = −1.064 1.721 t(14) = −2.4, p = .0.031 d = −1.201 2.407 t(7.91) = −2.982, p = 0.018 d = −1.491 5.252
233 ParaHippocampal_L Hippocampus_L U = 10, p = 0.021 r = −0.688 3.948 t(14) = −2.155, p = 0.053 d = −1.078 1.776 t(9.34) = −2.311, p = 0.045 d = −1.155 2.146
235 ParaHippocampal_L t(14) = −1.36, p = 0.195 d = −0.68 0.782 t(14) = −1.53, p = 0.15 d = −0.762 0.906 U = 20, p = 0.234 r = 0.234 0.836
259 Caudate_L Putamen_L U = 9, p = 0.015 r = −0.719 4.806 t(14) = −2.74, p = 0.016 d = −1.367 3.728 t(14) = −1.84, p = 0.088 d = −0.918 1.237
262 Hippocampus_L t(14) = −0.34, p = 0.736 d = −0.172 0.445 t(14) = −0.04, p = 0.967 d = −0.021 0.428 t(14) = 0.46, p = 0.655 d = 0.228 0.459
263 Thalamus_L t(14) = −1.58, p = 0.136 d = −0.79 0.954 t(14) = −1.47, p = 0.163 d = −0.737 0.864 t(9.08) = −0.951, p = 0.366 d = −0.475 0.578

aResults correspond to the (1) Student’s t-test when both the assumptions of a normal distribution and equality of variances were met, (2) Welch’s statistic when only the assumption of a normal distribution was met, and (3) Mann-Whitney U-test when the assumption of a normal distribution was not met. bEffect size is reported as Cohen’s d (if a parametric test was performed) or r (if a nonparametric test was performed); BF10: Bayes factor representing the likelihood of the alternative hypothesis over the null hypothesis. Correction for multiple comparisons was not performed in the frequentist analysis.