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- Live5/17/2026, 4:45:12 PM
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{ "field_tag": "astrocytes", "text": "What resolves this contention: Astrocytes near amyloid plaques show calcium hyperactivity—elevated resting calcium, more frequent transients, long-range synchronous intercellular calcium waves, and uncoupling from neuronal activity vs. Astrocyte responses to amyloid-β pathology include both hypertrophic (potentially hyperactive) and atrophic (potentially hypoactive) morphological phenotypes, and the relationship between calcium and morphological changes may not be uniformly hyperactive / Astrocytic calcium transients in Alzheimer's mice are more frequent, synchronously coordinated across long distances, and uncoupled from neuronal activity. / Transplanted human iPSC-derived astrocytes underwent morphological changes becoming hypertrophic or atrophic in response to amyloid-β plaques in APP/PS1 chimeric mice, and these changes appeared independent of APOE allelic background (E3/E3 vs E4/E4).", "source_refs": [ "paper:paper-2d9a059ff4a2", "paper:paper-41dc0509f7cf", "wiki_page:computationalreviewastrocytes-12", "paper:paper-2d9a059ff4a2", "paper:paper-41dc0509f7cf", "wiki_page:computationalreviewastrocytes-12", "paper:paper-2d9a059ff4a2", "paper:paper-41dc0509f7cf", "wiki_page:computationalreviewastrocytes-12", "paper:paper-2d9a059ff4a2", "paper:paper-41dc0509f7cf", "wiki_page:computationalreviewastrocytes-12" ], "importance": "0.7200", "tractability": "0.5500", "potential_impact": "0.7000", "composite_score": "0.2772", "elo_rating": "1500.00", "state": "open", "decay_rate": "0.01000", "resolution_evidence_refs": [] }