Details

scope
Human Connectome Project resting-state fMRI; macaque comparison data
section_id
section_08
source_url
https://github.com/AllenNeuralDynamics/ComputationalReviewLoops/blob/0632aae8abc141909207fe91f6349b9e36489c3b/evidence/section_08_evidence_package.json
review_repo
ComputationalReviewLoops
section_ref
wiki_page:computationalreviewloops-08
source_kind
review_finding
source_path
evidence/section_08_evidence_package.json
study_system
Human Connectome Project resting-state fMRI; macaque comparison data
section_title
Cortical Association Connectome: Intra-Cortical Loops and Modules
review_bundle_ref
analysis_bundle:ab-d49e54403ef9
replication_status
replication_unknown
review_package_ref
analysis_bundle:ab-d49e54403ef9
source_artifact_ref
wiki_page:computationalreviewloops-08
origin_url
https://github.com/AllenNeuralDynamics/ComputationalReviewLoops/blob/0632aae8abc141909207fe91f6349b9e36489c3b/evidence/section_08_evidence_package.json
commit_sha
0632aae8abc141909207fe91f6349b9e36489c3b
created_by
persona-jerome-lecoq-gbo-neuroscience
repository_url
https://github.com/AllenNeuralDynamics/ComputationalReviewLoops
Raw fields (7)
claim_text
Decomposition of human resting-state functional connectivity reveals a principal gradient that runs from primary sensory/motor cortex to transmodal default-mode regions, organizing multiple large-scale networks along a single macroscale axis.
raw_fields
{
  "n": 0,
  "doi": "10.1073/pnas.1608282113",
  "claim": "Decomposition of human resting-state functional connectivity reveals a principal gradient that runs from primary sensory/motor cortex to transmodal default-mode regions, organizing multiple large-scale networks along a single macroscale axis.",
  "cite_key": "Margulies2016",
  "evidence": "Decomposition of human resting-state functional connectivity reveals a principal gradient that runs from primary sensory/motor cortex to transmodal default-mode regions, organizing multiple large-scale networks along a single macroscale axis.",
  "effect_size": null,
  "text_access": "abstract_only",
  "study_system": "Human Connectome Project resting-state fMRI; macaque comparison data",
  "source_cluster_id": "cluster_07",
  "replication_status": "replication_unknown",
  "claim_source_sentence": "Here, we show that the principal gradient revealed by the decomposition of connectivity data in humans and the macaque monkey is anchored by, at one end, regions serving primary sensory/motor functions and at the other end, transmodal regions that, in humans, are known as the default-mode network (DMN).",
  "replication_evidence_dois": [],
  "effect_size_source_sentence": null
}
source_refs
[
  "paper:paper-92d5ad581620"
]
source_span
Here, we show that the principal gradient revealed by the decomposition of connectivity data in humans and the macaque monkey is anchored by, at one end, regions serving primary sensory/motor functions and at the other end, transmodal regions that, in humans, are known as the default-mode network (DMN).
evidence_refs
[
  {
    "ref": "paper:paper-92d5ad581620"
  }
]
source_policy
{
  "mode": "public_source_pointer_with_short_context",
  "notes": [
    "Local review repositories are read-only inputs.",
    "SciDEX stores paper metadata, structured evidence, file pointers, and short citation contexts; it does not copy full review prose."
  ],
  "source_commit_sha": "0632aae8abc141909207fe91f6349b9e36489c3b",
  "source_repository_url": "https://github.com/AllenNeuralDynamics/ComputationalReviewLoops"
}
evidence_summary
Decomposition of human resting-state functional connectivity reveals a principal gradient that runs from primary sensory/motor cortex to transmodal default-mode regions, organizing multiple large-scale networks along a single macroscale axis.

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