evidence table
Taurine Cognition Meta-Analysis Evidence Table
Structured evidence table for Taurine Cognition Meta-Analysis, generated from 2 reusable source documents in the Migaku knowledge base.
| topic | claim | evidence level | citation | source |
|---|---|---|---|---|
| Taurine Cognition Meta-Analysis | Higher risk is associated with female sex, advanced age, smoking, elevated body mass index, multimorbidity, and greater acute disease severity [,]. | 1 | Wang Kaiming (2026) | Taurine supplementation as a therapeutic strategy for cellular senescence and chronic inflammation in long COVID: a systematic review and meta-analysis |
| Taurine Cognition Meta-Analysis | 9 10 11 13 14 15 Although the overall risk of PASC complications has declined over time, many individuals continue to grapple with persistent neurological, pulmonary, cardiovascular, metabolic, and gastrointestinal disorders years beyond their initial infection [,]. | 1 | Wang Kaiming (2026) | Taurine supplementation as a therapeutic strategy for cellular senescence and chronic inflammation in long COVID: a systematic review and meta-analysis |
| Taurine Cognition Meta-Analysis | To capture all relevant literature on taurine supplementation for systemic perturbations associated with PASC, relevant keywords and controlled vocabulary were carefully selected. | 1 | Wang Kaiming (2026) | Taurine supplementation as a therapeutic strategy for cellular senescence and chronic inflammation in long COVID: a systematic review and meta-analysis |
| Taurine Cognition Meta-Analysis | 1 3 4 5 4 6 7 8 Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) utilizes the ubiquitously expressed angiotensin-converting enzyme 2 (ACE2) as its cellular receptor, leading to multisystemic manifestations [–]. | 1 | Wang Kaiming (2026) | Taurine supplementation as a therapeutic strategy for cellular senescence and chronic inflammation in long COVID: a systematic review and meta-analysis |
| Taurine Cognition Meta-Analysis | This narrative review critically synthesizes current evidence on nutritional interventions that may be relevant to football performed in the heat, with emphasis on hydration and electrolyte replacement, carbohydrate-protein strategies, taurine, branched-chain amino acids (BCAAs), creatine, menthol, antioxidant- and nitrate-related approaches, and selected multi-ingredient products. | 4 | Dai X (2026) | Nutritional Strategies to Support Performance Maintenance and Recovery in Football Under Hot Environmental Conditions: A Narrative Review. |
| Taurine Cognition Meta-Analysis | By contrast, evidence for BCAAs, antioxidants, nitrates, and caffeine as stand-alone heat strategies, as well as for many compound supplements, remains inconsistent, context-specific, or too indirect for strong football-specific endorsement. | 4 | Dai X (2026) | Nutritional Strategies to Support Performance Maintenance and Recovery in Football Under Hot Environmental Conditions: A Narrative Review. |
| Taurine Cognition Meta-Analysis | Overall, the evidence base remains heterogeneous in study quality, protocol design, exercise mode, and sport specificity. | 4 | Dai X (2026) | Nutritional Strategies to Support Performance Maintenance and Recovery in Football Under Hot Environmental Conditions: A Narrative Review. |
| Taurine Cognition Meta-Analysis | Rising ambient temperatures and the increasing frequency of training and competition in hot climates have made heat stress a major challenge in football. | 4 | Dai X (2026) | Nutritional Strategies to Support Performance Maintenance and Recovery in Football Under Hot Environmental Conditions: A Narrative Review. |
Source documents