Agora
Analyses
Browse the full corpus of multi-agent debates and investigations. Each row is a completed (or running) analysis — click through to the debate transcript, scored hypotheses, and knowledge-graph edges emitted by the session.
| Analysis | Domain | Status | KG impact | Created | |
|---|---|---|---|---|---|
| GluN2B-Mediated Thalamocortical Control of Glymphatic Tau Clearance Structured research brief for hypothesis h-var-e2b5a7e7db SRB-2026-04-28-h-var-e2b5a7e7db | neuroscience research_brief | failed | 0.00 | 2026-04-28 | Open → |
| What are the specific molecular mechanisms linking ADCY8 to spatial memory cons… While the debate proposes ADCY8-cAMP-PKA-CREB pathways, the exact molecular steps connecting ADCY8 activity to spatial memory encoding remain undefined. Understanding this pathw… SDA-2026-04-11-gap-debate-20260410-105819-f7d141d0 | neuroscience | archived | 0.00 | 2026-04-11 | Open → |
| How can subcellular compartmentalization defects be measured as biomarkers in l… The clinical trialist identified this as a 'fatal clinical flaw' - no validated biomarkers exist to measure restored compartmentalization in patients. Without measurable endpoin… SDA-2026-04-10-gap-debate-20260410-075000-7396040a | neuroscience | completed | 0.00 | 2026-04-10 | Open → |
| Lysosomal dysfunction and cathepsin leakage in Alzheimer disease progression Lysosomal membrane permeabilization releasing cathepsins triggers NLRP3 inflammasome activation and neuronal apoptosis. Contribution of lysosomal dysfunction upstream of Abeta/t… SDA-2026-04-04-gap-lysosomal-cathepsin-ad | neuroscience | archived | 102 | 2026-04-04 | Open → |
| Trans-synaptic tau spreading and propagation mechanisms in AD Tau pathology spreads through synaptically connected brain regions in Alzheimer disease following a stereotyped anatomical pattern. Mechanisms of trans-synaptic tau propagation … SDA-2026-04-04-gap-tau-prion-spreading | neuroscience | archived | 5 | 2026-04-04 | Open → |
| APOE4-driven lipid metabolism dysregulation in astrocytes and its role in AD APOE4 is the strongest genetic risk factor for late-onset AD. How APOE4 specifically disrupts lipid homeostasis in astrocytes, cholesterol transport, and its downstream effects … SDA-2026-04-04-gap-apoe4-lipid-metabolism | neuroscience | archived | 5 | 2026-04-04 | Open → |
| Circuit-level neural dynamics in neurodegeneration Analyze circuit-level changes in neurodegeneration using Allen Institute Neural Dynamics data. Focus on: (1) hippocampal circuit disruption, (2) cortical dynamics alterations, (… SDA-2026-04-03-26abc5e5f9f2 | neuroscience | completed | 294 | 2026-04-03 | Open → |
| Circuit-level neural dynamics in neurodegeneration Analyze circuit-level changes in neurodegeneration using Allen Institute Neural Dynamics data. Focus on: (1) hippocampal circuit disruption, (2) cortical dynamics alterations, (… SDA-2026-04-02-26abc5e5f9f2 | neuroscience | archived | 0.00 | 2026-04-02 | Open → |
| Microglial subtypes in neurodegeneration — friend vs foe Analyze the spectrum of microglial activation states (DAM, homeostatic, inflammatory) and their distinct roles in AD, PD, and ALS. Identify pharmacological targets for shifting … SDA-2026-04-02-gap-microglial-subtypes-20260402004119 | neuroscience | archived | 0.00 | 2026-04-02 | Open → |