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× WU-Minn HCP Consortium Open Access Data Use Terms
I request access to data collected by the Washington University - University of Minnesota Consortium of the Human Connectome Project (WU-Minn HCP), and I agree to the following:

1. I will not attempt to establish the identity of or attempt to contact any of the included human subjects.

2. I understand that under no circumstances will the code that would link these data to Protected Health Information be given to me, nor will any additional information about individual human subjects be released to me under these Open Access Data Use Terms.

3. I will comply with all relevant rules and regulations imposed by my institution. This may mean that I need my research to be approved or declared exempt by a committee that oversees research on human subjects, e.g. my IRB or Ethics Committee. The released HCP data are not considered de-identified, insofar as certain combinations of HCP Restricted Data (available through a separate process) might allow identification of individuals.  Different committees operate under different national, state and local laws and may interpret regulations differently, so it is important to ask about this. If needed and upon request, the HCP will provide a certificate stating that you have accepted the HCP Open Access Data Use Terms.

4. I may redistribute original WU-Minn HCP Open Access data and any derived data as long as the data are redistributed under these same Data Use Terms.

5. I will acknowledge the use of WU-Minn HCP data and data derived from WU-Minn HCP data when publicly presenting any results or algorithms that benefitted from their use.

1. Papers, book chapters, books, posters, oral presentations, and all other printed and digital presentations of results derived from HCP data should contain the following wording in the acknowledgments section: "Data were provided [in part] by the Human Connectome Project, WU-Minn Consortium (Principal Investigators: David Van Essen and Kamil Ugurbil; 1U54MH091657) funded by the 16 NIH Institutes and Centers that support the NIH Blueprint for Neuroscience Research; and by the McDonnell Center for Systems Neuroscience at Washington University."

2. Authors of publications or presentations using WU-Minn HCP data should cite relevant publications describing the methods used by the HCP to acquire and process the data. The specific publications that are appropriate to cite in any given study will depend on what HCP data were used and for what purposes. An annotated and appropriately up-to-date list of publications that may warrant consideration is available at http://www.humanconnectome.org/about/acknowledgehcp.html

3. The WU-Minn HCP Consortium as a whole should not be included as an author of publications or presentations if this authorship would be based solely on the use of WU-Minn HCP data.

6. Failure to abide by these guidelines will result in termination of my privileges to access WU-Minn HCP data.

Files

Type  Name  Size 
DLabel melodic_IC_ftb.dlabel.nii 0000618304 603 KB
PConn connectivity_ICC_corr_z_Gordon_btw.pconn.nii 0000788560 770 KB
PConn connectivity_ICC_L1_z_d150_within.pconn.nii 0000463312 452 KB
PScalar coherence_ICC_d350_btw.pscalar.nii 0000436808 426 KB
PConn connectivity_ICC_L2_z_d150_btw.pconn.nii 0000463312 452 KB
PConn connectivity_ICC_L2_z_d100_within.pconn.nii 0000404688 395 KB
PConn connectivity_ICC_L2_z_d50_btw.pconn.nii 0000364368 355 KB
PConn connectivity_ICC_L2_z_d300_within.pconn.nii 0000754960 737 KB
PScalar coherence_ICC_d150_within.pscalar.nii 0000401272 391 KB
Surface S1200.L.flat.32k_fs_LR.surf.gii 0000538686 526 KB
Surface S1200.R.midthickness_MSMAll.32k_fs_LR.surf.gii 0001810275 1 MB
Surface S1200.R.inflated_MSMAll.32k_fs_LR.surf.gii 0000867442 847 KB
PConn connectivity_ICC_L2_z_d250_within.pconn.nii 0000638592 623 KB
PConn connectivity_ICC_corr_z_d150_within.pconn.nii 0000463312 452 KB
Surface S1200.L.pial_MSMAll.32k_fs_LR.surf.gii 0001787978 1 MB
PConn connectivity_ICC_L1_z_d150_btw.pconn.nii 0000463312 452 KB
DLabel melodic_IC_ftb.dlabel.nii 0000612832 598 KB
PConn connectivity_ICC_L1_z_d250_within.pconn.nii 0000638592 623 KB
DLabel melodic_IC_ftb.dlabel.nii 0000585552 571 KB
PConn connectivity_ICC_L2_z_d25_within.pconn.nii 0000352100 343 KB
PConn connectivity_ICC_L1_z_d200_btw.pconn.nii 0000541440 528 KB
PConn connectivity_ICC_L2_z_d350_within.pconn.nii 0000891792 870 KB
PConn connectivity_ICC_L2_z_d200_btw.pconn.nii 0000541440 528 KB
PScalar coherence_ICC_d200_within.pscalar.nii 0000411072 401 KB
Surface S1200.L.inflated_MSMAll.32k_fs_LR.surf.gii 0000880169 859 KB
DScalar melodic_IC.dscalar.nii 0071661088 68 MB
Surface S1200.L.white_MSMAll.32k_fs_LR.surf.gii 0001792074 1 MB
DScalar melodic_IC.dscalar.nii 0083547632 79 MB
PConn connectivity_ICC_corr_z_Glasser_btw.pconn.nii 0000913808 892 KB
PConn connectivity_ICC_corr_z_d200_btw.pconn.nii 0000541456 528 KB
Surface S1200.L.very_inflated_MSMAll.32k_fs_LR.surf.gii 0000879781 859 KB
PConn connectivity_ICC_L2_z_d25_btw.pconn.nii 0000352084 343 KB
DLabel melodic_IC_ftb.dlabel.nii 0000590928 577 KB
Surface S1200.R.sphere.32k_fs_LR.surf.gii 0000553052 540 KB
DLabel Q1-Q6_RelatedValidation210.CorticalAreas_dil_Final_Final_Areas_Group_Colors.32k_fs_LR.dlabel.nii 0000621936 607 KB
PConn connectivity_ICC_corr_z_d50_within.pconn.nii 0000364384 355 KB
PConn connectivity_ICC_L2_z_d100_btw.pconn.nii 0000404688 395 KB
PConn connectivity_ICC_L2_z_d200_within.pconn.nii 0000541456 528 KB
DScalar melodic_IC.dscalar.nii 0012228336 11 MB
PConn connectivity_ICC_L1_z_d100_within.pconn.nii 0000404688 395 KB
Surface S1200.R.very_inflated_MSMAll.32k_fs_LR.surf.gii 0000867198 846 KB
PConn connectivity_ICC_L1_z_d25_btw.pconn.nii 0000352084 343 KB
DScalar melodic_IC.dscalar.nii 0024114880 22 MB
PScalar coherence_ICC_Glasser_btw.pscalar.nii 0000397184 387 KB
PScalar coherence_ICC_d150_btw.pscalar.nii 0000401272 391 KB
PConn connectivity_ICC_corr_z_d350_btw.pconn.nii 0000891792 870 KB
PConn connectivity_ICC_L1_z_d200_within.pconn.nii 0000541456 528 KB
PConn connectivity_ICC_corr_z_d350_within.pconn.nii 0000891792 870 KB
DLabel melodic_IC_ftb.dlabel.nii 0000607360 593 KB
PConn connectivity_ICC_L1_z_d300_btw.pconn.nii 0000754960 737 KB
PScalar coherence_ICC_d300_btw.pscalar.nii 0000428176 418 KB
DLabel melodic_IC_ftb.dlabel.nii 0000596400 582 KB
PConn connectivity_ICC_corr_z_d300_btw.pconn.nii 0000754960 737 KB
PConn connectivity_ICC_L1_z_d300_within.pconn.nii 0000754960 737 KB
PScalar coherence_ICC_d350_within.pscalar.nii 0000436808 426 KB
PScalar coherence_ICC_Glasser_within.pscalar.nii 0000397184 387 KB
PConn connectivity_ICC_corr_z_Glasser_within.pconn.nii 0000913824 892 KB
PScalar coherence_ICC_d250_btw.pscalar.nii 0000420008 410 KB
PConn connectivity_ICC_L2_z_d50_within.pconn.nii 0000364384 355 KB
PScalar coherence_ICC_d25_btw.pscalar.nii 0000372916 364 KB
Surface S1200.R.white_MSMAll.32k_fs_LR.surf.gii 0001779347 1 MB
PConn connectivity_ICC_L2_z_d250_btw.pconn.nii 0000638576 623 KB
PConn connectivity_ICC_corr_z_d50_btw.pconn.nii 0000364384 355 KB
DLabel Human.MedialWall_Conte69.32k_fs_LR.dlabel.nii 0000644640 629 KB
Surface S1200.L.midthickness_MSMAll.32k_fs_LR.surf.gii 0001822938 1 MB
PConn connectivity_ICC_corr_z_d150_btw.pconn.nii 0000463312 452 KB
PConn connectivity_ICC_L2_z_d150_within.pconn.nii 0000463312 452 KB
DLabel melodic_IC_ftb.dlabel.nii 0000601872 587 KB
PConn connectivity_ICC_L1_z_d50_within.pconn.nii 0000364384 355 KB
PConn connectivity_ICC_L1_z_d350_btw.pconn.nii 0000891792 870 KB
Metric S1200.R.midthickness_MSMAll_va.32k_fs_LR.shape.gii 0000300814 293 KB
PScalar coherence_ICC_d100_within.pscalar.nii 0000390704 381 KB
DLabel RSN-networks.32k_fs_LR.dlabel.nii 0001070688 1 MB
PScalar coherence_ICC_Gordon_within.pscalar.nii 0000297376 290 KB
PScalar coherence_ICC_d300_within.pscalar.nii 0000428176 418 KB
DScalar melodic_IC.dscalar.nii 0036001440 34 MB
PConn connectivity_ICC_L1_z_d250_btw.pconn.nii 0000638576 623 KB
PScalar coherence_ICC_Gordon_btw.pscalar.nii 0000297696 290 KB
DScalar melodic_IC.dscalar.nii 0006285056 5 MB
PConn connectivity_ICC_corr_z_d25_btw.pconn.nii 0000352100 343 KB
PConn connectivity_ICC_L2_z_d300_btw.pconn.nii 0000754960 737 KB
Surface S1200.R.pial_MSMAll.32k_fs_LR.surf.gii 0001775471 1 MB
PConn connectivity_ICC_corr_z_d100_within.pconn.nii 0000404688 395 KB
PConn connectivity_ICC_corr_z_d250_within.pconn.nii 0000638592 623 KB
PConn connectivity_ICC_L1_z_d25_within.pconn.nii 0000352100 343 KB
Metric S1200.L.midthickness_MSMAll_va.32k_fs_LR.shape.gii 0000300488 293 KB
Surface S1200.L.sphere.32k_fs_LR.surf.gii 0000562891 549 KB
PConn connectivity_ICC_corr_z_Gordon_within.pconn.nii 0000791248 772 KB
PConn connectivity_ICC_corr_z_d200_within.pconn.nii 0000541456 528 KB
PConn connectivity_ICC_L1_z_d100_btw.pconn.nii 0000404688 395 KB
PConn connectivity_ICC_L1_z_d350_within.pconn.nii 0000891792 870 KB
PConn connectivity_ICC_corr_z_d25_within.pconn.nii 0000352100 343 KB
PConn connectivity_ICC_corr_z_d250_btw.pconn.nii 0000638592 623 KB
PScalar coherence_ICC_d100_btw.pscalar.nii 0000390704 381 KB
PScalar coherence_ICC_d250_within.pscalar.nii 0000420008 410 KB
PConn connectivity_ICC_corr_z_d300_within.pconn.nii 0000754976 737 KB
PScalar coherence_ICC_d50_btw.pscalar.nii 0000378584 369 KB
PScalar coherence_ICC_d50_within.pscalar.nii 0000378600 369 KB
PScalar coherence_ICC_d25_within.pscalar.nii 0000372900 364 KB
PConn connectivity_ICC_corr_z_d100_btw.pconn.nii 0000404688 395 KB
Surface S1200.R.flat.32k_fs_LR.surf.gii 0000527373 515 KB
DScalar melodic_IC.dscalar.nii 0047887984 45 MB
DScalar melodic_IC.dscalar.nii 0059774528 57 MB
DLabel Gordon333.32k_fs_LR.dlabel.nii 0001031576 1007 KB
PConn connectivity_ICC_L2_z_d350_btw.pconn.nii 0000891792 870 KB
PConn connectivity_ICC_L1_z_d50_btw.pconn.nii 0000364368 355 KB
DLabel melodic_IC_ftb.dlabel.nii 0000582672 569 KB
PScalar coherence_ICC_d200_btw.pscalar.nii 0000411056 401 KB
Scene File: Reliability.scene
Figure 1. Cortical parcellations with ICA along with the Gordon and Glasser atlases
Figure 2. Coherence Reliability within Canonical Cortical Networks
Figure 3. Connectivity Reliability within Canonical Cortical Networks

study:
Impact of ICA Dimensionality on the Test-Retest Reliability of Resting-State Functional Connectivity

PATH:
Reliability.scene

SCENES:
  • Figure 1. Cortical parcellations with ICA along with the Gordon and Glasser atlases
  • Figure 2. Coherence Reliability within Canonical Cortical Networks
  • Figure 3. Connectivity Reliability within Canonical Cortical Networks
©2023 Washington University School of Medicine

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