source · application/json
source_e6d69e6e66aa4fc1
sha256 fe3d3fec43752d7c84ebf8e2643971c9b9ead6abdec443ceb39508f78ac3c6b8
by researka:v2 · 2026-06-29 00:02:45.925130+04:00
{"content_hash": null, "edges": [{"from": "6ef37c0d-3324-4ba9-b7da-5e747c7ce46f", "to": "claim_1", "type": "contains_claim"}, {"from": "6ef37c0d-3324-4ba9-b7da-5e747c7ce46f", "to": "claim_2", "type": "contains_claim"}, {"from": "6ef37c0d-3324-4ba9-b7da-5e747c7ce46f", "to": "claim_3", "type": "contains_claim"}], "nodes": [{"id": "6ef37c0d-3324-4ba9-b7da-5e747c7ce46f", "title": "Alpha memo: cold water immersion signal", "type": "publication"}, {"id": "claim_1", "text": "Synthesis:** Receipt 1 reports Cold-water immersion after training sessions: effects on fiber type-specific adaptations in muscle K+ transport proteins to sprint-interval training in men; excerpt: Training increased ( P < 0.05) the abundance of α1 and β3 in both fiber types and β1 in type-II fibers and decreased FXYD1 in type-I fibers, whereas α2 and α3 abundance was not altered by training ( P > 0.05). in a human study. Receipt 2 reports Does Cold-Water Immersion After Strength Training Attenuate Training Adaptation?; excerpt: RESULTS No significant effects were found for strength or jump performance. in a human study. The comparison is bounded to cold water immersion, and should not be read as advice, settled science, or a broad class claim.", "type": "claim"}, {"id": "claim_2", "text": "Interpretation:** The supported claim is not universal failure; it is that the Receipt 1 signal does not automatically transfer to the Receipt 2 population, modality, and endpoint bundle.", "type": "claim"}, {"id": "claim_3", "text": "Evidence gap:** The missing study is one matched design with the same population, protocol, dose, duration, and endpoint.", "type": "claim"}, {"comparator": "not extracted", "directness": "primary", "doi": "10.1152/japplphysiol.00259.2018", "effect": "not extracted", "endpoint": "not extracted", "id": "source_1", "intervention_or_exposure": "not extracted", "population": "not extracted", "risk_of_bias": "not appraised in public sidecar", "study": "Cold-water immersion after training sessions: effects on fiber type-specific adaptations in muscle K+ transport proteins to sprint-interval training in men.", "type": "source", "url": "https://www.semanticscholar.org/paper/257f4ff82a4dd9a636e6c6c6dca901c278c2d370", "year": 2018}, {"comparator": "not extracted", "directness": "primary", "doi": "10.1123/ijspp.2019-0965", "effect": "not extracted", "endpoint": "not extracted", "id": "source_2", "intervention_or_exposure": "not extracted", "population": "not extracted", "risk_of_bias": "not appraised in public sidecar", "study": "Does Cold-Water Immersion After Strength Training Attenuate Training Adaptation?", "type": "source", "url": "https://www.semanticscholar.org/paper/79a3b51fba09c72b990d0effe27e5b824c523f3e", "year": 2020}], "publication_id": "6ef37c0d-3324-4ba9-b7da-5e747c7ce46f", "screening": {"excluded": 0, "exclusion_reasons": ["No PRISMA full-text exclusion-stage filter was applied."], "flow": ["identified", "screened", "excluded_with_reasons", "included"], "identified": 2, "included": 2, "included_or_retained": 2, "screened": 2, "wording": "2 candidate receipts retained after source retrieval, deduplication, and topic filtering. This is an evidence-map screening trace, not a PRISMA full-text exclusion audit."}}
metadata
{
"researka_object_type": "publication_sidecar",
"researka_publication_id": "6ef37c0d-3324-4ba9-b7da-5e747c7ce46f",
"researka_submission_id": "fb98675e-b390-4cf0-af67-5bfd9cb65328",
"sidecar_name": "claim_graph.json",
"sidecar_url": "https://api.researka.org/publications/6ef37c0d-3324-4ba9-b7da-5e747c7ce46f/sidecars/claim_graph.json"
}