source boundary
frontier-owneddeclared
A source record is provenance. It supports a finding only through evidence atoms, extraction spans, and reviewed finding bundles.
frontiers / frontier
Source record
back to sourcessource boundary
frontier-ownedA source record is provenance. It supports a finding only through evidence atoms, extraction spans, and reviewed finding bundles.
finding bindings
record contextFindings bound to this source through source ids, evidence atoms, provenance, or reviewed source-record slots.
evidence atoms
materializedEvidence atoms pin exact spans, measurements, selectors, or curation assertions to the source.
review context
inspectable5 reviewable changes and 0 evaluations are attached through this source or its findings.
Locator and citation
locator
title:Yamazaki et al., Brain 2019; Carrano et al., Antioxid Redox Signal 2011
imported
2026-05-09T21:02:21.022204+00:00
extraction mode
manual_curation
authors
agent:bbb-curation-bot-2026-05-09
Caveats
No source-specific caveats are recorded.
Cerebral microvasculature in early Alzheimer's disease post-mortem brain shows reduced expression of tight-junction proteins claudin-5 and occludin. Loss of these tight-junction components is consistent with a shared mechanism of blood-brain barrier compromise observed in other CNS pathologies including peritumoral glioma vasculature.
events
vev_32642dcf29862edffinding.entity_resolvedWave A.2 curation: canonical entity resolution against standard ontologies (UniProt for proteins, MeSH for cell types and anatomical structures). All identifiers are unambiguous standard mappings.
reviewer:will-blair · 2026-05-10
vev_37c6ac65d30ce3b4finding.entity_resolvedWave A.2 curation: canonical entity resolution against standard ontologies (UniProt for proteins, MeSH for cell types and anatomical structures). All identifiers are unambiguous standard mappings.
reviewer:will-blair · 2026-05-10
vev_720a56b30dbe2909finding.entity_resolvedWave A.2 curation: canonical entity resolution against standard ontologies (UniProt for proteins, MeSH for cell types and anatomical structures). All identifiers are unambiguous standard mappings.
reviewer:will-blair · 2026-05-10
vev_767b027713665378finding.assertedManual finding added to frontier state
agent:bbb-curation-bot-2026-05-09 · 2026-05-09
vev_cd144b1e7c56413afinding.span_repairedWave A.3 curation: paraphrased span anchored to Yamazaki et al. Brain 2019 (tight-junction loss in AD post-mortem) and Carrano et al. Antioxid Redox Signal 2011 (oxidative-stress-mediated BBB tight-junction breakdown). Span is curator-paraphrased; cited paper sections are the load-bearing ones.
reviewer:will-blair · 2026-05-10
reviewable changes
vpr_21d0c76335044d59finding.entity_resolveWave A.2 curation: canonical entity resolution against standard ontologies (UniProt for proteins, MeSH for cell types and anatomical structures). All identifiers are unambiguous standard mappings.
applied · reviewer:will-blair · 2026-05-10
vpr_5d60f1d220d27332finding.entity_resolveWave A.2 curation: canonical entity resolution against standard ontologies (UniProt for proteins, MeSH for cell types and anatomical structures). All identifiers are unambiguous standard mappings.
applied · reviewer:will-blair · 2026-05-10
vpr_647281164d2a42d4finding.addManual finding added to frontier state
applied · agent:bbb-curation-bot-2026-05-09 · 2026-05-09
vpr_89fb94bdd3aee792finding.entity_resolveWave A.2 curation: canonical entity resolution against standard ontologies (UniProt for proteins, MeSH for cell types and anatomical structures). All identifiers are unambiguous standard mappings.
applied · reviewer:will-blair · 2026-05-10
vpr_c43731aea1eb7545finding.span_repairWave A.3 curation: paraphrased span anchored to Yamazaki et al. Brain 2019 (tight-junction loss in AD post-mortem) and Carrano et al. Antioxid Redox Signal 2011 (oxidative-stress-mediated BBB tight-junction breakdown). Span is curator-paraphrased; cited paper sections are the load-bearing ones.
applied · reviewer:will-blair · 2026-05-10
evaluations
No evaluation rows are attached.