evidence table
Green Tea Cognition Meta-Analysis Evidence Table
Structured evidence table for Green Tea Cognition Meta-Analysis, generated from 2 reusable source documents in the Migaku knowledge base.
| topic | claim | evidence level | citation | source |
|---|---|---|---|---|
| Green Tea Cognition Meta-Analysis | Polyphenols strengthen the intestinal barrier and reduce endotoxemia; cocoa bean shell extracts protected against oxysterol‐induced intestinal damage and improved gut microbiota composition in preclinical models (Alia et al. ). | 3 | Akif Adnan (2026) | Dietary Polyphenols in Non‐Communicable Chronic Diseases: Neuro–Enteric Mechanisms, Multi‐Omics Biomarkers and Translational Opportunities |
| Green Tea Cognition Meta-Analysis | While many epidemiological studies correlate polyphenol‐rich diets (e.g., Mediterranean diet) with reduced NCCD risk, causality is uncertain due to confounding and measurement error. | 3 | Akif Adnan (2026) | Dietary Polyphenols in Non‐Communicable Chronic Diseases: Neuro–Enteric Mechanisms, Multi‐Omics Biomarkers and Translational Opportunities |
| Green Tea Cognition Meta-Analysis | Controlled trials provide more robust evidence but vary widely in doses, formulations, populations and endpoints. | 3 | Akif Adnan (2026) | Dietary Polyphenols in Non‐Communicable Chronic Diseases: Neuro–Enteric Mechanisms, Multi‐Omics Biomarkers and Translational Opportunities |
| Green Tea Cognition Meta-Analysis | AMP BBB CNS COMT COSMOS CRP (hs‐CRP) CSF EGCG ENB‐2 (ENB) ENS EVOO FMD GAD‐7 (GAD) GM‐CSF (GM) HDL HOMA‐IR (HOMA) IBS IL IR LDL LPS MCI MMSE NADPH NCCD (NCCDs) PHGG PHQ‐9 (PHQ) PSQI PWV RBANS RCT SCFA SD TNF (TNF‐α) 2024 Non‐communicable chronic diseases account for the majority of morbidity and mortality worldwide. | 3 | Akif Adnan (2026) | Dietary Polyphenols in Non‐Communicable Chronic Diseases: Neuro–Enteric Mechanisms, Multi‐Omics Biomarkers and Translational Opportunities |
| Green Tea Cognition Meta-Analysis | This study consolidates the evidence based on phytochemicals for cognitive enhancement, highlighting a need for more robust, methodologically sound trials to determine if these natural compounds hold promise in cognitive therapeutics, particularly for populations with cognitive impairments. | 3 | Marsh Alexander (2026) | The efficacy of nutritional phytochemical compounds in improving cognition |
| Green Tea Cognition Meta-Analysis | Accordingly, this review prespecified phytochemicals that meet 3 criteria: long-standing traditional association with cognition, biological plausibility supported by preclinical evidence, and progression into human research or commercial cognitive-health formulations, includingL. | 3 | Marsh Alexander (2026) | The efficacy of nutritional phytochemical compounds in improving cognition |
| Green Tea Cognition Meta-Analysis | While the evidence surrounding green tea and its relevant constituents is relatively well summarized, the impact that other herbs and phytochemical compounds may have on cognition remains to be systematically reviewed. | 3 | Marsh Alexander (2026) | The efficacy of nutritional phytochemical compounds in improving cognition |
| Green Tea Cognition Meta-Analysis | tenuiflorum This study addresses the effectiveness of various naturally occurring molecules in improving cognitive functions in healthy adults. | 3 | Marsh Alexander (2026) | The efficacy of nutritional phytochemical compounds in improving cognition |
Source documents