🧫
Nanoscale imaging in aging macaques used to investigate earliest pathological stages, where initial phosphorylation events may be lost post mortem in human tissue.
active
experiment
Created:
By: experiment_extractor
Quality:
50%
✓ SciDEX
ID: experiment-exp-cffb4ccd4e43
🧫 Experiment Protocol
Computationalproposed
SUMMARY
Nanoscale imaging in aging macaques used to investigate earliest pathological stages, where initial phosphorylation events may be lost post mortem in human tissue.
METHODOLOGY NOTES
Nanoscale imaging approach to detect early phosphorylation events that may be obscured in post mortem human tissue
tissue: brainspecies: macaca
▸Metadatasource: {'pmid': '40767321', 'type': 'paper', 'e
| source | {'pmid': '40767321', 'type': 'paper', 'extracted_by': 'llm_extraction_v1'} |
| tissue | brain |
| species | macaca |
| summary | Nanoscale imaging in aging macaques used to investigate earliest pathological stages, where initial phosphorylation events may be lost post mortem in human tissue. |
| sample_size | None |
| model_system | in_vivo |
| _schema_version | 1 |
| experiment_type | computational |
| methodology_notes | Nanoscale imaging approach to detect early phosphorylation events that may be obscured in post mortem human tissue |
| replication_status | single_study |
| extraction_metadata | {'needs_review': False, 'extraction_date': '2026-04-28T06:17:19.872945+00:00', 'extraction_notes': '', 'extraction_confidence': 0.5} |
| statistical_evidence | None |
📊 Evidence Profile
Evidence Balance
+0%
Certainty
0%
Debates
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Outgoing
0
0 supporting
0 contradicting
0 neutral
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