Brain atlas for the Glasser cortical parcellation with 361 regions
based on the Human Connectome Project multi-modal parcellation.
Contains 2D polygon geometry for ggseg::geom_brain().
Value
A ggseg.formats::ggseg_atlas object (cortical).
References
Glasser MF, Coalson TS, Robinson EC, Hacker CD, Harwell J, Yacoub E, Ugurbil K, Andersson J, Beckmann CF, Jenkinson M, Smith SM, Van Essen DC (2016). A multi-modal parcellation of human cerebral cortex. Nature, 536(7615):171-178. doi:10.1038/nature18933
Examples
glasser()
#>
#> ── glasser ggseg atlas ─────────────────────────────────────────────────────────
#> Type: cortical
#> Regions: 180
#> Hemispheres: left, right
#> Views: inferior, lateral, medial, superior
#> Palette: ✔
#> Rendering: ✔ ggseg
#> ✔ ggseg3d (vertices)
#> ────────────────────────────────────────────────────────────────────────────────
#> # A tibble: 360 × 3
#> hemi region label
#> <chr> <chr> <chr>
#> 1 left V1 lh_L_V1_ROI
#> 2 left MST lh_L_MST_ROI
#> 3 left V6 lh_L_V6_ROI
#> 4 left V2 lh_L_V2_ROI
#> 5 left V3 lh_L_V3_ROI
#> 6 left V4 lh_L_V4_ROI
#> 7 left V8 lh_L_V8_ROI
#> 8 left 4 lh_L_4_ROI
#> 9 left 3b lh_L_3b_ROI
#> 10 left FEF lh_L_FEF_ROI
#> 11 left PEF lh_L_PEF_ROI
#> 12 left 55b lh_L_55b_ROI
#> 13 left V3A lh_L_V3A_ROI
#> 14 left RSC lh_L_RSC_ROI
#> 15 left POS2 lh_L_POS2_ROI
#> 16 left V7 lh_L_V7_ROI
#> 17 left IPS1 lh_L_IPS1_ROI
#> 18 left FFC lh_L_FFC_ROI
#> 19 left V3B lh_L_V3B_ROI
#> 20 left LO1 lh_L_LO1_ROI
#> 21 left LO2 lh_L_LO2_ROI
#> 22 left PIT lh_L_PIT_ROI
#> 23 left MT lh_L_MT_ROI
#> 24 left A1 lh_L_A1_ROI
#> 25 left PSL lh_L_PSL_ROI
#> 26 left SFL lh_L_SFL_ROI
#> 27 left PCV lh_L_PCV_ROI
#> 28 left STV lh_L_STV_ROI
#> 29 left 7Pm lh_L_7Pm_ROI
#> 30 left 7m lh_L_7m_ROI
#> 31 left POS1 lh_L_POS1_ROI
#> 32 left 23d lh_L_23d_ROI
#> 33 left v23ab lh_L_v23ab_ROI
#> 34 left d23ab lh_L_d23ab_ROI
#> 35 left 31pv lh_L_31pv_ROI
#> 36 left 5m lh_L_5m_ROI
#> 37 left 5mv lh_L_5mv_ROI
#> 38 left 23c lh_L_23c_ROI
#> 39 left 5L lh_L_5L_ROI
#> 40 left 24dd lh_L_24dd_ROI
#> 41 left 24dv lh_L_24dv_ROI
#> 42 left 7AL lh_L_7AL_ROI
#> 43 left SCEF lh_L_SCEF_ROI
#> 44 left 6ma lh_L_6ma_ROI
#> 45 left 7Am lh_L_7Am_ROI
#> 46 left 7PL lh_L_7PL_ROI
#> 47 left 7PC lh_L_7PC_ROI
#> 48 left LIPv lh_L_LIPv_ROI
#> 49 left VIP lh_L_VIP_ROI
#> 50 left MIP lh_L_MIP_ROI
#> 51 left 1 lh_L_1_ROI
#> 52 left 2 lh_L_2_ROI
#> 53 left 3a lh_L_3a_ROI
#> 54 left 6d lh_L_6d_ROI
#> 55 left 6mp lh_L_6mp_ROI
#> 56 left 6v lh_L_6v_ROI
#> 57 left p24pr lh_L_p24pr_ROI
#> 58 left 33pr lh_L_33pr_ROI
#> 59 left a24pr lh_L_a24pr_ROI
#> 60 left p32pr lh_L_p32pr_ROI
#> 61 left a24 lh_L_a24_ROI
#> 62 left d32 lh_L_d32_ROI
#> 63 left 8BM lh_L_8BM_ROI
#> 64 left p32 lh_L_p32_ROI
#> 65 left 10r lh_L_10r_ROI
#> 66 left 47m lh_L_47m_ROI
#> 67 left 8Av lh_L_8Av_ROI
#> 68 left 8Ad lh_L_8Ad_ROI
#> 69 left 9m lh_L_9m_ROI
#> 70 left 8BL lh_L_8BL_ROI
#> 71 left 9p lh_L_9p_ROI
#> 72 left 10d lh_L_10d_ROI
#> 73 left 8C lh_L_8C_ROI
#> 74 left 44 lh_L_44_ROI
#> 75 left 45 lh_L_45_ROI
#> 76 left 47l lh_L_47l_ROI
#> 77 left a47r lh_L_a47r_ROI
#> 78 left 6r lh_L_6r_ROI
#> 79 left IFJa lh_L_IFJa_ROI
#> 80 left IFJp lh_L_IFJp_ROI
#> 81 left IFSp lh_L_IFSp_ROI
#> 82 left IFSa lh_L_IFSa_ROI
#> 83 left p9-46v lh_L_p9-46v_ROI
#> 84 left 46 lh_L_46_ROI
#> 85 left a9-46v lh_L_a9-46v_ROI
#> 86 left 9-46d lh_L_9-46d_ROI
#> 87 left 9a lh_L_9a_ROI
#> 88 left 10v lh_L_10v_ROI
#> 89 left a10p lh_L_a10p_ROI
#> 90 left 10pp lh_L_10pp_ROI
#> 91 left 11l lh_L_11l_ROI
#> 92 left 13l lh_L_13l_ROI
#> 93 left OFC lh_L_OFC_ROI
#> 94 left 47s lh_L_47s_ROI
#> 95 left LIPd lh_L_LIPd_ROI
#> 96 left 6a lh_L_6a_ROI
#> 97 left i6-8 lh_L_i6-8_ROI
#> 98 left s6-8 lh_L_s6-8_ROI
#> 99 left 43 lh_L_43_ROI
#> 100 left OP4 lh_L_OP4_ROI
#> 101 left OP1 lh_L_OP1_ROI
#> 102 left OP2-3 lh_L_OP2-3_ROI
#> 103 left 52 lh_L_52_ROI
#> 104 left RI lh_L_RI_ROI
#> 105 left PFcm lh_L_PFcm_ROI
#> 106 left PoI2 lh_L_PoI2_ROI
#> 107 left TA2 lh_L_TA2_ROI
#> 108 left FOP4 lh_L_FOP4_ROI
#> 109 left MI lh_L_MI_ROI
#> 110 left Pir lh_L_Pir_ROI
#> 111 left AVI lh_L_AVI_ROI
#> 112 left AAIC lh_L_AAIC_ROI
#> 113 left FOP1 lh_L_FOP1_ROI
#> 114 left FOP3 lh_L_FOP3_ROI
#> 115 left FOP2 lh_L_FOP2_ROI
#> 116 left PFt lh_L_PFt_ROI
#> 117 left AIP lh_L_AIP_ROI
#> 118 left EC lh_L_EC_ROI
#> 119 left PreS lh_L_PreS_ROI
#> 120 left H lh_L_H_ROI
#> 121 left ProS lh_L_ProS_ROI
#> 122 left PeEc lh_L_PeEc_ROI
#> 123 left STGa lh_L_STGa_ROI
#> 124 left PBelt lh_L_PBelt_ROI
#> 125 left A5 lh_L_A5_ROI
#> 126 left PHA1 lh_L_PHA1_ROI
#> 127 left PHA3 lh_L_PHA3_ROI
#> 128 left STSda lh_L_STSda_ROI
#> 129 left STSdp lh_L_STSdp_ROI
#> 130 left STSvp lh_L_STSvp_ROI
#> 131 left TGd lh_L_TGd_ROI
#> 132 left TE1a lh_L_TE1a_ROI
#> 133 left TE1p lh_L_TE1p_ROI
#> 134 left TE2a lh_L_TE2a_ROI
#> 135 left TF lh_L_TF_ROI
#> 136 left TE2p lh_L_TE2p_ROI
#> 137 left PHT lh_L_PHT_ROI
#> 138 left PH lh_L_PH_ROI
#> 139 left TPOJ1 lh_L_TPOJ1_ROI
#> 140 left TPOJ2 lh_L_TPOJ2_ROI
#> 141 left TPOJ3 lh_L_TPOJ3_ROI
#> 142 left DVT lh_L_DVT_ROI
#> 143 left PGp lh_L_PGp_ROI
#> 144 left IP2 lh_L_IP2_ROI
#> 145 left IP1 lh_L_IP1_ROI
#> 146 left IP0 lh_L_IP0_ROI
#> 147 left PFop lh_L_PFop_ROI
#> 148 left PF lh_L_PF_ROI
#> 149 left PFm lh_L_PFm_ROI
#> 150 left PGi lh_L_PGi_ROI
#> 151 left PGs lh_L_PGs_ROI
#> 152 left V6A lh_L_V6A_ROI
#> 153 left VMV1 lh_L_VMV1_ROI
#> 154 left VMV3 lh_L_VMV3_ROI
#> 155 left PHA2 lh_L_PHA2_ROI
#> 156 left V4t lh_L_V4t_ROI
#> 157 left FST lh_L_FST_ROI
#> 158 left V3CD lh_L_V3CD_ROI
#> 159 left LO3 lh_L_LO3_ROI
#> 160 left VMV2 lh_L_VMV2_ROI
#> 161 left 31pd lh_L_31pd_ROI
#> 162 left 31a lh_L_31a_ROI
#> 163 left VVC lh_L_VVC_ROI
#> 164 left 25 lh_L_25_ROI
#> 165 left s32 lh_L_s32_ROI
#> 166 left pOFC lh_L_pOFC_ROI
#> 167 left PoI1 lh_L_PoI1_ROI
#> 168 left Ig lh_L_Ig_ROI
#> 169 left FOP5 lh_L_FOP5_ROI
#> 170 left p10p lh_L_p10p_ROI
#> 171 left p47r lh_L_p47r_ROI
#> 172 left TGv lh_L_TGv_ROI
#> 173 left MBelt lh_L_MBelt_ROI
#> 174 left LBelt lh_L_LBelt_ROI
#> 175 left A4 lh_L_A4_ROI
#> 176 left STSva lh_L_STSva_ROI
#> 177 left TE1m lh_L_TE1m_ROI
#> 178 left PI lh_L_PI_ROI
#> 179 left a32pr lh_L_a32pr_ROI
#> 180 left p24 lh_L_p24_ROI
#> 181 right V1 rh_R_V1_ROI
#> 182 right MST rh_R_MST_ROI
#> 183 right V6 rh_R_V6_ROI
#> 184 right V2 rh_R_V2_ROI
#> 185 right V3 rh_R_V3_ROI
#> 186 right V4 rh_R_V4_ROI
#> 187 right V8 rh_R_V8_ROI
#> 188 right 4 rh_R_4_ROI
#> 189 right 3b rh_R_3b_ROI
#> 190 right FEF rh_R_FEF_ROI
#> 191 right PEF rh_R_PEF_ROI
#> 192 right 55b rh_R_55b_ROI
#> 193 right V3A rh_R_V3A_ROI
#> 194 right RSC rh_R_RSC_ROI
#> 195 right POS2 rh_R_POS2_ROI
#> 196 right V7 rh_R_V7_ROI
#> 197 right IPS1 rh_R_IPS1_ROI
#> 198 right FFC rh_R_FFC_ROI
#> 199 right V3B rh_R_V3B_ROI
#> 200 right LO1 rh_R_LO1_ROI
#> 201 right LO2 rh_R_LO2_ROI
#> 202 right PIT rh_R_PIT_ROI
#> 203 right MT rh_R_MT_ROI
#> 204 right A1 rh_R_A1_ROI
#> 205 right PSL rh_R_PSL_ROI
#> 206 right SFL rh_R_SFL_ROI
#> 207 right PCV rh_R_PCV_ROI
#> 208 right STV rh_R_STV_ROI
#> 209 right 7Pm rh_R_7Pm_ROI
#> 210 right 7m rh_R_7m_ROI
#> 211 right POS1 rh_R_POS1_ROI
#> 212 right 23d rh_R_23d_ROI
#> 213 right v23ab rh_R_v23ab_ROI
#> 214 right d23ab rh_R_d23ab_ROI
#> 215 right 31pv rh_R_31pv_ROI
#> 216 right 5m rh_R_5m_ROI
#> 217 right 5mv rh_R_5mv_ROI
#> 218 right 23c rh_R_23c_ROI
#> 219 right 5L rh_R_5L_ROI
#> 220 right 24dd rh_R_24dd_ROI
#> 221 right 24dv rh_R_24dv_ROI
#> 222 right 7AL rh_R_7AL_ROI
#> 223 right SCEF rh_R_SCEF_ROI
#> 224 right 6ma rh_R_6ma_ROI
#> 225 right 7Am rh_R_7Am_ROI
#> 226 right 7PL rh_R_7PL_ROI
#> 227 right 7PC rh_R_7PC_ROI
#> 228 right LIPv rh_R_LIPv_ROI
#> 229 right VIP rh_R_VIP_ROI
#> 230 right MIP rh_R_MIP_ROI
#> 231 right 1 rh_R_1_ROI
#> 232 right 2 rh_R_2_ROI
#> 233 right 3a rh_R_3a_ROI
#> 234 right 6d rh_R_6d_ROI
#> 235 right 6mp rh_R_6mp_ROI
#> 236 right 6v rh_R_6v_ROI
#> 237 right p24pr rh_R_p24pr_ROI
#> 238 right 33pr rh_R_33pr_ROI
#> 239 right a24pr rh_R_a24pr_ROI
#> 240 right p32pr rh_R_p32pr_ROI
#> 241 right a24 rh_R_a24_ROI
#> 242 right d32 rh_R_d32_ROI
#> 243 right 8BM rh_R_8BM_ROI
#> 244 right p32 rh_R_p32_ROI
#> 245 right 10r rh_R_10r_ROI
#> 246 right 47m rh_R_47m_ROI
#> 247 right 8Av rh_R_8Av_ROI
#> 248 right 8Ad rh_R_8Ad_ROI
#> 249 right 9m rh_R_9m_ROI
#> 250 right 8BL rh_R_8BL_ROI
#> 251 right 9p rh_R_9p_ROI
#> 252 right 10d rh_R_10d_ROI
#> 253 right 8C rh_R_8C_ROI
#> 254 right 44 rh_R_44_ROI
#> 255 right 45 rh_R_45_ROI
#> 256 right 47l rh_R_47l_ROI
#> 257 right a47r rh_R_a47r_ROI
#> 258 right 6r rh_R_6r_ROI
#> 259 right IFJa rh_R_IFJa_ROI
#> 260 right IFJp rh_R_IFJp_ROI
#> 261 right IFSp rh_R_IFSp_ROI
#> 262 right IFSa rh_R_IFSa_ROI
#> 263 right p9-46v rh_R_p9-46v_ROI
#> 264 right 46 rh_R_46_ROI
#> 265 right a9-46v rh_R_a9-46v_ROI
#> 266 right 9-46d rh_R_9-46d_ROI
#> 267 right 9a rh_R_9a_ROI
#> 268 right 10v rh_R_10v_ROI
#> 269 right a10p rh_R_a10p_ROI
#> 270 right 10pp rh_R_10pp_ROI
#> 271 right 11l rh_R_11l_ROI
#> 272 right 13l rh_R_13l_ROI
#> 273 right OFC rh_R_OFC_ROI
#> 274 right 47s rh_R_47s_ROI
#> 275 right LIPd rh_R_LIPd_ROI
#> 276 right 6a rh_R_6a_ROI
#> 277 right i6-8 rh_R_i6-8_ROI
#> 278 right s6-8 rh_R_s6-8_ROI
#> 279 right 43 rh_R_43_ROI
#> 280 right OP4 rh_R_OP4_ROI
#> 281 right OP1 rh_R_OP1_ROI
#> 282 right OP2-3 rh_R_OP2-3_ROI
#> 283 right 52 rh_R_52_ROI
#> 284 right RI rh_R_RI_ROI
#> 285 right PFcm rh_R_PFcm_ROI
#> 286 right PoI2 rh_R_PoI2_ROI
#> 287 right TA2 rh_R_TA2_ROI
#> 288 right FOP4 rh_R_FOP4_ROI
#> 289 right MI rh_R_MI_ROI
#> 290 right Pir rh_R_Pir_ROI
#> 291 right AVI rh_R_AVI_ROI
#> 292 right AAIC rh_R_AAIC_ROI
#> 293 right FOP1 rh_R_FOP1_ROI
#> 294 right FOP3 rh_R_FOP3_ROI
#> 295 right FOP2 rh_R_FOP2_ROI
#> 296 right PFt rh_R_PFt_ROI
#> 297 right AIP rh_R_AIP_ROI
#> 298 right EC rh_R_EC_ROI
#> 299 right PreS rh_R_PreS_ROI
#> 300 right H rh_R_H_ROI
#> 301 right ProS rh_R_ProS_ROI
#> 302 right PeEc rh_R_PeEc_ROI
#> 303 right STGa rh_R_STGa_ROI
#> 304 right PBelt rh_R_PBelt_ROI
#> 305 right A5 rh_R_A5_ROI
#> 306 right PHA1 rh_R_PHA1_ROI
#> 307 right PHA3 rh_R_PHA3_ROI
#> 308 right STSda rh_R_STSda_ROI
#> 309 right STSdp rh_R_STSdp_ROI
#> 310 right STSvp rh_R_STSvp_ROI
#> 311 right TGd rh_R_TGd_ROI
#> 312 right TE1a rh_R_TE1a_ROI
#> 313 right TE1p rh_R_TE1p_ROI
#> 314 right TE2a rh_R_TE2a_ROI
#> 315 right TF rh_R_TF_ROI
#> 316 right TE2p rh_R_TE2p_ROI
#> 317 right PHT rh_R_PHT_ROI
#> 318 right PH rh_R_PH_ROI
#> 319 right TPOJ1 rh_R_TPOJ1_ROI
#> 320 right TPOJ2 rh_R_TPOJ2_ROI
#> 321 right TPOJ3 rh_R_TPOJ3_ROI
#> 322 right DVT rh_R_DVT_ROI
#> 323 right PGp rh_R_PGp_ROI
#> 324 right IP2 rh_R_IP2_ROI
#> 325 right IP1 rh_R_IP1_ROI
#> 326 right IP0 rh_R_IP0_ROI
#> 327 right PFop rh_R_PFop_ROI
#> 328 right PF rh_R_PF_ROI
#> 329 right PFm rh_R_PFm_ROI
#> 330 right PGi rh_R_PGi_ROI
#> 331 right PGs rh_R_PGs_ROI
#> 332 right V6A rh_R_V6A_ROI
#> 333 right VMV1 rh_R_VMV1_ROI
#> 334 right VMV3 rh_R_VMV3_ROI
#> 335 right PHA2 rh_R_PHA2_ROI
#> 336 right V4t rh_R_V4t_ROI
#> 337 right FST rh_R_FST_ROI
#> 338 right V3CD rh_R_V3CD_ROI
#> 339 right LO3 rh_R_LO3_ROI
#> 340 right VMV2 rh_R_VMV2_ROI
#> 341 right 31pd rh_R_31pd_ROI
#> 342 right 31a rh_R_31a_ROI
#> 343 right VVC rh_R_VVC_ROI
#> 344 right 25 rh_R_25_ROI
#> 345 right s32 rh_R_s32_ROI
#> 346 right pOFC rh_R_pOFC_ROI
#> 347 right PoI1 rh_R_PoI1_ROI
#> 348 right Ig rh_R_Ig_ROI
#> 349 right FOP5 rh_R_FOP5_ROI
#> 350 right p10p rh_R_p10p_ROI
#> 351 right p47r rh_R_p47r_ROI
#> 352 right TGv rh_R_TGv_ROI
#> 353 right MBelt rh_R_MBelt_ROI
#> 354 right LBelt rh_R_LBelt_ROI
#> 355 right A4 rh_R_A4_ROI
#> 356 right STSva rh_R_STSva_ROI
#> 357 right TE1m rh_R_TE1m_ROI
#> 358 right PI rh_R_PI_ROI
#> 359 right a32pr rh_R_a32pr_ROI
#> 360 right p24 rh_R_p24_ROI