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sha256 9b4dc8aed3612fea5fa997ac9e83703511daa83137f7cb44c623c376dace2893
by researka:v2 · 2026-06-29 04:21:21.225314+04:00
# Alpha memo: cold water immersion human-to-human endpoint boundary **Research question:** How far does the Receipt 1 signal transfer across the setting tested by Receipt 2? **One-sentence alpha:** Cold-water immersion after training sessions: effects on fiber type-specific adaptations in muscle K+ transport proteins to sprint-interval training in men. made us expect adaptations would help recovery or performance; Does Cold-Water Immersion After Strength Training Attenuate Training Adaptation? forces the update that the same intervention may be bounded by training modality or adaptation endpoint. **Receipt 1:** Cold-water immersion after training sessions: effects on fiber type-specific adaptations in muscle K+ transport proteins to sprint-interval training in men. | 2018 | 10.1152/japplphysiol.00259.2018 **Receipt 2:** Does Cold-Water Immersion After Strength Training Attenuate Training Adaptation? | 2020 | 10.1123/ijspp.2019-0965 **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. **Bounded contrast:** Receipt 1 axes: men, sprint, cycling, training, adaptation, adaptations, function. Receipt 2 axes: strength, training, performance, adaptation, adaptations. **Receipt-role check:** Each receipt is interpreted only within its named intervention, comparator, population, and endpoint setting. **Interpretation:** Receipt 1 establishes adaptation/function in human; Receipt 2 establishes performance/adaptation in human; the update is the boundary between those receipt-owned axes, not a universal benefit or failure claim. **Why this is surprising:** The same named anchor is not enough. The useful signal is the boundary between the two receipt settings and endpoints, not a literature-average claim about cold water immersion. **Limitations:** This pair does not isolate which axis drives the split: modality, endpoint class, dose, duration, single-component attribution if a receipt tests a combined protocol. **Falsifier:** A matched human study where performance/adaptation endpoints improve under the same isolated intervention would overturn the update. **Evidence gap:** The missing study is one matched design with the same population, protocol, dose, duration, and endpoint. **Next test:** Run the same cold water immersion comparison in one matched design before treating the signal as general.
metadata
{
"article_type": "alpha_memo",
"domain_slug": "longevity_research",
"researka_object_type": "submission",
"researka_submission_id": "97a2ac40-f228-407c-8f3a-81326deed1f6",
"title": "Alpha memo: cold water immersion human-to-human endpoint boundary"
}