Returns a list of dictionaries with information corresponding to each atlas stored in NeuroVault.
nv_atlas(id = NULL, verbose = TRUE, secure = TRUE, ...) nv_atlas_names(...) nv_atlas_df(verbose = TRUE, ...)
| id | id of the atlas |
|---|---|
| verbose | print diagnostic messages |
| secure | passed to |
| ... | additional options to pass to |
List of the result of the GET call and
the content
res = nv_atlas()#>#> Response [https://neurovault.org/api/atlases/] #> Date: 2020-03-18 16:22 #> Status: 200 #> Content-Type: application/json; charset=utf-8 #> Size: 20.9 kB #>df = results_to_df(res$content$results) nv_atlas_names()#>#> Response [https://neurovault.org/api/atlases/] #> Date: 2020-03-18 16:22 #> Status: 200 #> Content-Type: application/json; charset=utf-8 #> Size: 20.9 kB #>#> [1] "Thalamus maxprob thr25 2mm" #> [2] "Thalamus maxprob thr25 1mm" #> [3] "AAL2" #> [4] "AAL" #> [5] "JHU ICBM labels 2mm" #> [6] "JHU ICBM labels 1mm" #> [7] "Juelich maxprob thr25 1mm" #> [8] "HarvardOxford sub maxprob thr25 2mm" #> [9] "HarvardOxford cort maxprob thr25 2mm" #> [10] "HarvardOxford cort maxprob thr25 1mm" #> [11] "HarvardOxford sub maxprob thr25 1mm" #> [12] "JHU ICBM tracts maxprob thr25 2mm" #> [13] "JHU ICBM tracts maxprob thr25 1mm" #> [14] "Juelich maxprob thr25 2mm" #> [15] "MNI maxprob thr25 1mm" #> [16] "MNI maxprob thr25 2mm" #> [17] "Talairach labels 1mm" #> [18] "Talairach labels 2mm"nv_atlas_df()#>#> Response [https://neurovault.org/api/atlases/] #> Date: 2020-03-18 16:22 #> Status: 200 #> Content-Type: application/json; charset=utf-8 #> Size: 20.9 kB #>#> collection_id url id #> 1 262 https://neurovault.org/images/1700/ 1700 #> 2 262 https://neurovault.org/images/1707/ 1707 #> 3 262 https://neurovault.org/images/1699/ 1699 #> 4 262 https://neurovault.org/images/1705/ 1705 #> 5 263 https://neurovault.org/images/1390/ 1390 #> 6 263 https://neurovault.org/images/1392/ 1392 #> 7 264 https://neurovault.org/images/1408/ 1408 #> 8 264 https://neurovault.org/images/1401/ 1401 #> 9 264 https://neurovault.org/images/1400/ 1400 #> 10 264 https://neurovault.org/images/1403/ 1403 #> 11 267 https://neurovault.org/images/1416/ 1416 #> 12 267 https://neurovault.org/images/1417/ 1417 #> 13 291 https://neurovault.org/images/1557/ 1557 #> 14 291 https://neurovault.org/images/1558/ 1558 #> 15 1056 https://neurovault.org/images/14228/ 14228 #> 16 1056 https://neurovault.org/images/14227/ 14227 #> 17 1059 https://neurovault.org/images/14255/ 14255 #> 18 1060 https://neurovault.org/images/14257/ 14257 #> file #> 1 https://neurovault.org/media/images/262/HarvardOxford-sub-maxprob-thr25-1mm.nii.gz #> 2 https://neurovault.org/media/images/262/HarvardOxford-sub-maxprob-thr25-2mm.nii.gz #> 3 https://neurovault.org/media/images/262/HarvardOxford-cort-maxprob-thr25-2mm.nii.gz #> 4 https://neurovault.org/media/images/262/HarvardOxford-cort-maxprob-thr25-1mm.nii.gz #> 5 https://neurovault.org/media/images/263/Juelich-maxprob-thr25-1mm.nii.gz #> 6 https://neurovault.org/media/images/263/Juelich-maxprob-thr25-2mm.nii.gz #> 7 https://neurovault.org/media/images/264/JHU-ICBM-labels-2mm.nii.gz #> 8 https://neurovault.org/media/images/264/JHU-ICBM-labels-1mm.nii.gz #> 9 https://neurovault.org/media/images/264/JHU-ICBM-tracts-maxprob-thr25-2mm.nii.gz #> 10 https://neurovault.org/media/images/264/JHU-ICBM-tracts-maxprob-thr25-1mm.nii.gz #> 11 https://neurovault.org/media/images/267/MNI-maxprob-thr25-1mm.nii.gz #> 12 https://neurovault.org/media/images/267/MNI-maxprob-thr25-2mm.nii.gz #> 13 https://neurovault.org/media/images/291/Talairach-labels-1mm_2.nii.gz #> 14 https://neurovault.org/media/images/291/Talairach-labels-2mm_2.nii.gz #> 15 https://neurovault.org/media/images/1056/Thalamus-maxprob-thr25-2mm.nii.gz #> 16 https://neurovault.org/media/images/1056/Thalamus-maxprob-thr25-1mm.nii.gz #> 17 https://neurovault.org/media/images/1059/AAL2_2.nii.gz #> 18 https://neurovault.org/media/images/1060/AAL.nii.gz #> collection file_size #> 1 https://neurovault.org/collections/262/ 197724 #> 2 https://neurovault.org/collections/262/ 41196 #> 3 https://neurovault.org/collections/262/ 29113 #> 4 https://neurovault.org/collections/262/ 146506 #> 5 https://neurovault.org/collections/263/ 162746 #> 6 https://neurovault.org/collections/263/ 28807 #> 7 https://neurovault.org/collections/264/ 9611 #> 8 https://neurovault.org/collections/264/ 52093 #> 9 https://neurovault.org/collections/264/ 7161 #> 10 https://neurovault.org/collections/264/ 53988 #> 11 https://neurovault.org/collections/267/ 139095 #> 12 https://neurovault.org/collections/267/ 29427 #> 13 https://neurovault.org/collections/291/ 430529 #> 14 https://neurovault.org/collections/291/ 60463 #> 15 https://neurovault.org/collections/1056/ 2396 #> 16 https://neurovault.org/collections/1056/ 14945 #> 17 https://neurovault.org/collections/1059/ 44967 #> 18 https://neurovault.org/collections/1060/ 44908 #> label_description_file #> 1 https://neurovault.org/media/images/262/HarvardOxford-sub-maxprob-thr25-1mm.xml #> 2 https://neurovault.org/media/images/262/HarvardOxford-sub-maxprob-thr25-2mm.xml #> 3 https://neurovault.org/media/images/262/HarvardOxford-cort-maxprob-thr25-2mm.xml #> 4 https://neurovault.org/media/images/262/HarvardOxford-cort-maxprob-thr25-1mm.xml #> 5 https://neurovault.org/media/images/263/Juelich-maxprob-thr25-1mm.xml #> 6 https://neurovault.org/media/images/263/Juelich-maxprob-thr25-2mm.xml #> 7 https://neurovault.org/media/images/264/JHU-ICBM-labels-2mm.xml #> 8 https://neurovault.org/media/images/264/JHU-ICBM-labels-1mm.xml #> 9 https://neurovault.org/media/images/264/JHU-ICBM-tracts-maxprob-thr25-2mm.xml #> 10 https://neurovault.org/media/images/264/JHU-ICBM-tracts-maxprob-thr25-1mm.xml #> 11 https://neurovault.org/media/images/267/MNI-maxprob-thr25-1mm.xml #> 12 https://neurovault.org/media/images/267/MNI-maxprob-thr25-2mm.xml #> 13 https://neurovault.org/media/images/291/Talairach-labels-1mm.xml #> 14 https://neurovault.org/media/images/291/Talairach-labels-2mm.xml #> 15 https://neurovault.org/media/images/1056/Thalamus-maxprob-thr25-2mm.xml #> 16 https://neurovault.org/media/images/1056/Thalamus-maxprob-thr25-1mm.xml #> 17 https://neurovault.org/media/images/1059/AAL2.xml #> 18 https://neurovault.org/media/images/1060/AAL.xml #> name description add_date #> 1 HarvardOxford sub maxprob thr25 1mm FSL5.0 2016-01-21T17:23:06.701590Z #> 2 HarvardOxford sub maxprob thr25 2mm FSL5.0 2016-01-21T17:23:06.660302Z #> 3 HarvardOxford cort maxprob thr25 2mm FSL3.3 2016-01-21T17:22:07.618016Z #> 4 HarvardOxford cort maxprob thr25 1mm FSL3.3 2016-01-21T17:23:06.691355Z #> 5 Juelich maxprob thr25 1mm FSL4.0 2016-01-21T17:22:27.861352Z #> 6 Juelich maxprob thr25 2mm FSL4.0 2016-01-21T17:23:06.681300Z #> 7 JHU ICBM labels 2mm FSL3.3 2016-01-21T17:22:27.881835Z #> 8 JHU ICBM labels 1mm FSL3.3 2016-01-21T17:22:27.892133Z #> 9 JHU ICBM tracts maxprob thr25 2mm FSL3.3 2016-01-21T17:22:09.337980Z #> 10 JHU ICBM tracts maxprob thr25 1mm FSL3.3 2016-01-21T17:23:06.968197Z #> 11 MNI maxprob thr25 1mm FSL3.3 2016-01-21T17:22:27.902328Z #> 12 MNI maxprob thr25 2mm FSL3.3 2016-01-21T17:23:07.348263Z #> 13 Talairach labels 1mm FSL4.0 2016-01-21T17:23:22.793196Z #> 14 Talairach labels 2mm 2016-01-21T17:21:35.109530Z #> 15 Thalamus maxprob thr25 2mm FSL3.3 2016-01-21T17:22:24.571965Z #> 16 Thalamus maxprob thr25 1mm FSL3.3 2016-01-21T17:22:00.663231Z #> 17 AAL2 FSL3.3 2016-01-21T17:22:47.235776Z #> 18 AAL FSL3.3 2016-01-21T17:22:48.651242Z #> modify_date is_valid #> 1 2016-01-21T17:23:06.701609Z TRUE #> 2 2016-01-21T17:23:06.660320Z TRUE #> 3 2016-01-21T17:22:07.618034Z TRUE #> 4 2016-01-21T17:23:06.691374Z TRUE #> 5 2018-06-30T04:23:10.345825Z TRUE #> 6 2018-06-30T04:23:13.290634Z TRUE #> 7 2016-01-21T17:22:27.881853Z TRUE #> 8 2016-01-21T17:22:27.892152Z TRUE #> 9 2016-01-21T17:22:09.337998Z TRUE #> 10 2016-01-21T17:23:06.968216Z TRUE #> 11 2018-06-30T04:43:55.198591Z TRUE #> 12 2018-06-30T04:43:56.793618Z TRUE #> 13 2018-06-30T05:02:15.058920Z TRUE #> 14 2018-06-30T05:02:15.105432Z TRUE #> 15 2018-06-30T04:07:04.650885Z TRUE #> 16 2018-06-30T04:07:04.705398Z TRUE #> 17 2018-06-30T04:09:18.645496Z TRUE #> 18 2018-06-30T04:18:35.105101Z TRUE #> surface_left_file #> 1 <NA> #> 2 <NA> #> 3 <NA> #> 4 <NA> #> 5 https://neurovault.org/media/images/263/1390.L.func.gii #> 6 https://neurovault.org/media/images/263/1392.L.func.gii #> 7 <NA> #> 8 <NA> #> 9 <NA> #> 10 <NA> #> 11 https://neurovault.org/media/images/267/1416.L.func.gii #> 12 https://neurovault.org/media/images/267/1417.L.func.gii #> 13 https://neurovault.org/media/images/291/1557.L.func.gii #> 14 https://neurovault.org/media/images/291/1558.L.func.gii #> 15 https://neurovault.org/media/images/1056/14228.L.func.gii #> 16 https://neurovault.org/media/images/1056/14227.L.func.gii #> 17 https://neurovault.org/media/images/1059/14255.L.func.gii #> 18 https://neurovault.org/media/images/1060/14257.L.func.gii #> surface_right_file data_origin #> 1 <NA> volume #> 2 <NA> volume #> 3 <NA> volume #> 4 <NA> volume #> 5 https://neurovault.org/media/images/263/1390.R.func.gii volume #> 6 https://neurovault.org/media/images/263/1392.R.func.gii volume #> 7 <NA> volume #> 8 <NA> volume #> 9 <NA> volume #> 10 <NA> volume #> 11 https://neurovault.org/media/images/267/1416.R.func.gii volume #> 12 https://neurovault.org/media/images/267/1417.R.func.gii volume #> 13 https://neurovault.org/media/images/291/1557.R.func.gii volume #> 14 https://neurovault.org/media/images/291/1558.R.func.gii volume #> 15 https://neurovault.org/media/images/1056/14228.R.func.gii volume #> 16 https://neurovault.org/media/images/1056/14227.R.func.gii volume #> 17 https://neurovault.org/media/images/1059/14255.R.func.gii volume #> 18 https://neurovault.org/media/images/1060/14257.R.func.gii volume #> target_template_image subject_species figure handedness age gender race #> 1 GenericMNI homo sapiens NA NA NA NA NA #> 2 GenericMNI homo sapiens NA NA NA NA NA #> 3 GenericMNI homo sapiens NA NA NA NA NA #> 4 GenericMNI homo sapiens NA NA NA NA NA #> 5 GenericMNI homo sapiens NA NA NA NA NA #> 6 GenericMNI homo sapiens NA NA NA NA NA #> 7 GenericMNI homo sapiens NA NA NA NA NA #> 8 GenericMNI homo sapiens NA NA NA NA NA #> 9 GenericMNI homo sapiens NA NA NA NA NA #> 10 GenericMNI homo sapiens NA NA NA NA NA #> 11 GenericMNI homo sapiens NA NA NA NA NA #> 12 GenericMNI homo sapiens NA NA NA NA NA #> 13 GenericMNI homo sapiens NA NA NA NA NA #> 14 GenericMNI homo sapiens NA NA NA NA NA #> 15 GenericMNI homo sapiens NA NA NA NA NA #> 16 GenericMNI homo sapiens NA NA NA NA NA #> 17 GenericMNI homo sapiens NA NA NA NA NA #> 18 GenericMNI homo sapiens NA NA NA NA NA #> ethnicity BMI fat_percentage waist_hip_ratio mean_PDS_score tanner_stage #> 1 NA NA NA NA NA NA #> 2 NA NA NA NA NA NA #> 3 NA NA NA NA NA NA #> 4 NA NA NA NA NA NA #> 5 NA NA NA NA NA NA #> 6 NA NA NA NA NA NA #> 7 NA NA NA NA NA NA #> 8 NA NA NA NA NA NA #> 9 NA NA NA NA NA NA #> 10 NA NA NA NA NA NA #> 11 NA NA NA NA NA NA #> 12 NA NA NA NA NA NA #> 13 NA NA NA NA NA NA #> 14 NA NA NA NA NA NA #> 15 NA NA NA NA NA NA #> 16 NA NA NA NA NA NA #> 17 NA NA NA NA NA NA #> 18 NA NA NA NA NA NA #> days_since_menstruation hours_since_last_meal bis_bas_score spsrq_score #> 1 NA NA NA NA #> 2 NA NA NA NA #> 3 NA NA NA NA #> 4 NA NA NA NA #> 5 NA NA NA NA #> 6 NA NA NA NA #> 7 NA NA NA NA #> 8 NA NA NA NA #> 9 NA NA NA NA #> 10 NA NA NA NA #> 11 NA NA NA NA #> 12 NA NA NA NA #> 13 NA NA NA NA #> 14 NA NA NA NA #> 15 NA NA NA NA #> 16 NA NA NA NA #> 17 NA NA NA NA #> 18 NA NA NA NA #> bis11_score thumbnail #> 1 NA https://neurovault.org/media/images/262/glass_brain_1700.jpg #> 2 NA https://neurovault.org/media/images/262/glass_brain_1707.jpg #> 3 NA https://neurovault.org/media/images/262/glass_brain_1699.jpg #> 4 NA https://neurovault.org/media/images/262/glass_brain_1705.jpg #> 5 NA https://neurovault.org/media/images/263/glass_brain_1390.jpg #> 6 NA https://neurovault.org/media/images/263/glass_brain_1392.jpg #> 7 NA https://neurovault.org/media/images/264/glass_brain_1408.jpg #> 8 NA https://neurovault.org/media/images/264/glass_brain_1401.jpg #> 9 NA https://neurovault.org/media/images/264/glass_brain_1400.jpg #> 10 NA https://neurovault.org/media/images/264/glass_brain_1403.jpg #> 11 NA https://neurovault.org/media/images/267/glass_brain_1416.jpg #> 12 NA https://neurovault.org/media/images/267/glass_brain_1417.jpg #> 13 NA https://neurovault.org/media/images/291/glass_brain_1557_1.jpg #> 14 NA https://neurovault.org/media/images/291/glass_brain_1558_1.jpg #> 15 NA https://neurovault.org/media/images/1056/glass_brain_14228_1.jpg #> 16 NA https://neurovault.org/media/images/1056/glass_brain_14227_1.jpg #> 17 NA https://neurovault.org/media/images/1059/glass_brain_14255.jpg #> 18 NA https://neurovault.org/media/images/1060/glass_brain_14257.jpg #> reduced_representation data #> 1 https://neurovault.org/media/images/262/transform_4mm_1700.npy NA #> 2 https://neurovault.org/media/images/262/transform_4mm_1707.npy NA #> 3 https://neurovault.org/media/images/262/transform_4mm_1699.npy NA #> 4 https://neurovault.org/media/images/262/transform_4mm_1705.npy NA #> 5 https://neurovault.org/media/images/263/transform_4mm_1390.npy NA #> 6 https://neurovault.org/media/images/263/transform_4mm_1392.npy NA #> 7 https://neurovault.org/media/images/264/transform_4mm_1408.npy NA #> 8 https://neurovault.org/media/images/264/transform_4mm_1401.npy NA #> 9 https://neurovault.org/media/images/264/transform_4mm_1400.npy NA #> 10 https://neurovault.org/media/images/264/transform_4mm_1403.npy NA #> 11 https://neurovault.org/media/images/267/transform_4mm_1416.npy NA #> 12 https://neurovault.org/media/images/267/transform_4mm_1417.npy NA #> 13 https://neurovault.org/media/images/291/transform_4mm_1557.npy NA #> 14 https://neurovault.org/media/images/291/transform_4mm_1558.npy NA #> 15 <NA> NA #> 16 <NA> NA #> 17 <NA> NA #> 18 <NA> NA #> collection_description #> 1 Makris N, Goldstein JM, Kennedy D, Hodge SM, Caviness VS, Faraone SV, Tsuang MT, Seidman LJ. Decreased volume of left and total anterior insular lobule in schizophrenia. Schizophr Res. 2006 Apr;83(2-3):155-71\r\n\r\nFrazier JA, Chiu S, Breeze JL, Makris N, Lange N, Kennedy DN, Herbert MR, Bent EK, Koneru VK, Dieterich ME, Hodge SM, Rauch SL, Grant PE, Cohen BM, Seidman LJ, Caviness VS, Biederman J. Structural brain magnetic resonance imaging of limbic and thalamic volumes in pediatric bipolar disorder. Am J Psychiatry. 2005 Jul;162(7):1256-65\r\n\r\nDesikan RS, Ségonne F, Fischl B, Quinn BT, Dickerson BC, Blacker D, Buckner RL, Dale AM, Maguire RP, Hyman BT, Albert MS, Killiany RJ. An automated labeling system for subdividing the human cerebral cortex on MRI scans into gyral based regions of interest. Neuroimage. 2006 Jul 1;31(3):968-80.\r\n\r\nGoldstein JM, Seidman LJ, Makris N, Ahern T, O'Brien LM, Caviness VS Jr, Kennedy DN, Faraone SV, Tsuang MT. Hypothalamic abnormalities in schizophrenia: sex effects and genetic vulnerability. Biol Psychiatry. 2007 Apr 15;61(8):935-45 #> 2 Makris N, Goldstein JM, Kennedy D, Hodge SM, Caviness VS, Faraone SV, Tsuang MT, Seidman LJ. Decreased volume of left and total anterior insular lobule in schizophrenia. Schizophr Res. 2006 Apr;83(2-3):155-71\r\n\r\nFrazier JA, Chiu S, Breeze JL, Makris N, Lange N, Kennedy DN, Herbert MR, Bent EK, Koneru VK, Dieterich ME, Hodge SM, Rauch SL, Grant PE, Cohen BM, Seidman LJ, Caviness VS, Biederman J. Structural brain magnetic resonance imaging of limbic and thalamic volumes in pediatric bipolar disorder. Am J Psychiatry. 2005 Jul;162(7):1256-65\r\n\r\nDesikan RS, Ségonne F, Fischl B, Quinn BT, Dickerson BC, Blacker D, Buckner RL, Dale AM, Maguire RP, Hyman BT, Albert MS, Killiany RJ. An automated labeling system for subdividing the human cerebral cortex on MRI scans into gyral based regions of interest. Neuroimage. 2006 Jul 1;31(3):968-80.\r\n\r\nGoldstein JM, Seidman LJ, Makris N, Ahern T, O'Brien LM, Caviness VS Jr, Kennedy DN, Faraone SV, Tsuang MT. Hypothalamic abnormalities in schizophrenia: sex effects and genetic vulnerability. Biol Psychiatry. 2007 Apr 15;61(8):935-45 #> 3 Makris N, Goldstein JM, Kennedy D, Hodge SM, Caviness VS, Faraone SV, Tsuang MT, Seidman LJ. Decreased volume of left and total anterior insular lobule in schizophrenia. Schizophr Res. 2006 Apr;83(2-3):155-71\r\n\r\nFrazier JA, Chiu S, Breeze JL, Makris N, Lange N, Kennedy DN, Herbert MR, Bent EK, Koneru VK, Dieterich ME, Hodge SM, Rauch SL, Grant PE, Cohen BM, Seidman LJ, Caviness VS, Biederman J. Structural brain magnetic resonance imaging of limbic and thalamic volumes in pediatric bipolar disorder. Am J Psychiatry. 2005 Jul;162(7):1256-65\r\n\r\nDesikan RS, Ségonne F, Fischl B, Quinn BT, Dickerson BC, Blacker D, Buckner RL, Dale AM, Maguire RP, Hyman BT, Albert MS, Killiany RJ. An automated labeling system for subdividing the human cerebral cortex on MRI scans into gyral based regions of interest. Neuroimage. 2006 Jul 1;31(3):968-80.\r\n\r\nGoldstein JM, Seidman LJ, Makris N, Ahern T, O'Brien LM, Caviness VS Jr, Kennedy DN, Faraone SV, Tsuang MT. Hypothalamic abnormalities in schizophrenia: sex effects and genetic vulnerability. Biol Psychiatry. 2007 Apr 15;61(8):935-45 #> 4 Makris N, Goldstein JM, Kennedy D, Hodge SM, Caviness VS, Faraone SV, Tsuang MT, Seidman LJ. Decreased volume of left and total anterior insular lobule in schizophrenia. Schizophr Res. 2006 Apr;83(2-3):155-71\r\n\r\nFrazier JA, Chiu S, Breeze JL, Makris N, Lange N, Kennedy DN, Herbert MR, Bent EK, Koneru VK, Dieterich ME, Hodge SM, Rauch SL, Grant PE, Cohen BM, Seidman LJ, Caviness VS, Biederman J. Structural brain magnetic resonance imaging of limbic and thalamic volumes in pediatric bipolar disorder. Am J Psychiatry. 2005 Jul;162(7):1256-65\r\n\r\nDesikan RS, Ségonne F, Fischl B, Quinn BT, Dickerson BC, Blacker D, Buckner RL, Dale AM, Maguire RP, Hyman BT, Albert MS, Killiany RJ. An automated labeling system for subdividing the human cerebral cortex on MRI scans into gyral based regions of interest. Neuroimage. 2006 Jul 1;31(3):968-80.\r\n\r\nGoldstein JM, Seidman LJ, Makris N, Ahern T, O'Brien LM, Caviness VS Jr, Kennedy DN, Faraone SV, Tsuang MT. Hypothalamic abnormalities in schizophrenia: sex effects and genetic vulnerability. Biol Psychiatry. 2007 Apr 15;61(8):935-45 #> 5 Eickhoff et al., A new SPM toolbox for combining probabilistic cytoarchitectonic maps and functional imaging data. Neuroimage 25(4):1325-35 (2005)\r\nEickhoff et al., Testing anatomically specified hypotheses in functional imaging using cytoarchitectonic maps. NeuroImage 32(2): 570-582 (2006)\r\nEickhoff et al., Assignment of functional activations to probabilistic cytoarchitectonic areas revisited. NeuroImage, 36(3): 511-521 (2007) #> 6 Eickhoff et al., A new SPM toolbox for combining probabilistic cytoarchitectonic maps and functional imaging data. Neuroimage 25(4):1325-35 (2005)\r\nEickhoff et al., Testing anatomically specified hypotheses in functional imaging using cytoarchitectonic maps. NeuroImage 32(2): 570-582 (2006)\r\nEickhoff et al., Assignment of functional activations to probabilistic cytoarchitectonic areas revisited. NeuroImage, 36(3): 511-521 (2007) #> 7 Mori et al., MRI Atlas of Human White Matter. Elsevier, Amsterdam, The Netherlands (2005)\r\nWakana et al., Reproducibility of quantitative tractography methods applied to cerebral white matter. NeuroImage 36:630-644 (2007)\r\nHua et al., Tract probability maps in stereotaxic spaces: analysis of white matter anatomy and tract-specific quantification. NeuroImage, 39(1):336-347 (2008) #> 8 Mori et al., MRI Atlas of Human White Matter. Elsevier, Amsterdam, The Netherlands (2005)\r\nWakana et al., Reproducibility of quantitative tractography methods applied to cerebral white matter. NeuroImage 36:630-644 (2007)\r\nHua et al., Tract probability maps in stereotaxic spaces: analysis of white matter anatomy and tract-specific quantification. NeuroImage, 39(1):336-347 (2008) #> 9 Mori et al., MRI Atlas of Human White Matter. Elsevier, Amsterdam, The Netherlands (2005)\r\nWakana et al., Reproducibility of quantitative tractography methods applied to cerebral white matter. NeuroImage 36:630-644 (2007)\r\nHua et al., Tract probability maps in stereotaxic spaces: analysis of white matter anatomy and tract-specific quantification. NeuroImage, 39(1):336-347 (2008) #> 10 Mori et al., MRI Atlas of Human White Matter. Elsevier, Amsterdam, The Netherlands (2005)\r\nWakana et al., Reproducibility of quantitative tractography methods applied to cerebral white matter. NeuroImage 36:630-644 (2007)\r\nHua et al., Tract probability maps in stereotaxic spaces: analysis of white matter anatomy and tract-specific quantification. NeuroImage, 39(1):336-347 (2008) #> 11 Collins et al. Automatic 3-D model-based neuroanatomical segmentation. Human Brain Mapping 3(3): 190-208. (1995)\r\nMazziotta et al. A probabilistic atlas and reference system for the human brain: International Consortium for Brain Mapping (ICBM). Phil. Trans. Royal Soc. B Biol. Sci. 356(1412):1293-1322 (2001) #> 12 Collins et al. Automatic 3-D model-based neuroanatomical segmentation. Human Brain Mapping 3(3): 190-208. (1995)\r\nMazziotta et al. A probabilistic atlas and reference system for the human brain: International Consortium for Brain Mapping (ICBM). Phil. Trans. Royal Soc. B Biol. Sci. 356(1412):1293-1322 (2001) #> 13 ***The .xml files associated with this atlas have been modified and are not the same as the ones supplied by FSL. We subtracted 1 from each index value in order to match the convention used in all the other .xml files supplied by FSL.***\r\n\r\n\r\nTalairach et al. Co-planar stereotaxic atlas of the human brain. Thieme, New York. (1988)\r\nLancaster et al. Bias between MNI and Talairach coordinates analyzed using the ICBM-152 brain template. Human Brain Mapping (in press) (2007)\r\nLancaster et al. Automated Talairach Atlas labels for functional brain mapping. Human Brain Mapping 10:120-131 (2000) #> 14 ***The .xml files associated with this atlas have been modified and are not the same as the ones supplied by FSL. We subtracted 1 from each index value in order to match the convention used in all the other .xml files supplied by FSL.***\r\n\r\n\r\nTalairach et al. Co-planar stereotaxic atlas of the human brain. Thieme, New York. (1988)\r\nLancaster et al. Bias between MNI and Talairach coordinates analyzed using the ICBM-152 brain template. Human Brain Mapping (in press) (2007)\r\nLancaster et al. Automated Talairach Atlas labels for functional brain mapping. Human Brain Mapping 10:120-131 (2000) #> 15 #> 16 #> 17 #> 18 #> collection_name #> 1 Harvard-Oxford cortical and subcortical structural atlases #> 2 Harvard-Oxford cortical and subcortical structural atlases #> 3 Harvard-Oxford cortical and subcortical structural atlases #> 4 Harvard-Oxford cortical and subcortical structural atlases #> 5 A new SPM toolbox for combining probabilistic cytoarchitectonic maps and functional imaging data #> 6 A new SPM toolbox for combining probabilistic cytoarchitectonic maps and functional imaging data #> 7 JHU DTI-based white-matter atlases #> 8 JHU DTI-based white-matter atlases #> 9 JHU DTI-based white-matter atlases #> 10 JHU DTI-based white-matter atlases #> 11 Automatic 3-D model-based neuroanatomical segmentation #> 12 Automatic 3-D model-based neuroanatomical segmentation #> 13 Automated Talairach Atlas labels for functional brain mapping #> 14 Automated Talairach Atlas labels for functional brain mapping #> 15 Non-invasive mapping of connections between human thalamus and cortex using diffusion imaging #> 16 Non-invasive mapping of connections between human thalamus and cortex using diffusion imaging #> 17 Implementation of a new parcellation of the orbitofrontal cortex in the automated anatomical labeling atlas #> 18 Automated Anatomical Labeling of Activations in SPM Using a Macroscopic Anatomical Parcellation of the MNI MRI Single-Subject Brain