evidence table
Vitamin C Fatigue Meta-Analysis Evidence Table
Structured evidence table for Vitamin C Fatigue Meta-Analysis, generated from 1 reusable source document in the Migaku knowledge base.
| topic | claim | evidence level | citation | source |
|---|---|---|---|---|
| Vitamin C Fatigue Meta-Analysis | Results Results from hypoxic mouse experiments demonstrated that supplementation with the plant bioactive compound combination significantly improved exercise performance, as evidenced by increased weight-loaded swimming time and limb grip strength. | 1 | Ma H (2026) | Enhancing Exercise Performance Under Hypoxia: A Network Meta-Analysis and Animal Experimental Validation of Plant Bioactive Compounds. |
| Vitamin C Fatigue Meta-Analysis | Supplementation with the plant bioactive compound combination modulated short-chain fatty acid (SCFA) production by gut microbiota, decreased levels of lactic acid (LA), lactate dehydrogenase (LDH), and creatine kinase (CK), maintained blood glucose levels before and after exercise, and increased muscle and hepatic glycogen reserves. | 1 | Ma H (2026) | Enhancing Exercise Performance Under Hypoxia: A Network Meta-Analysis and Animal Experimental Validation of Plant Bioactive Compounds. |
| Vitamin C Fatigue Meta-Analysis | These effects collectively improved exercise endurance and performance in mice under hypoxic conditions. | 1 | Ma H (2026) | Enhancing Exercise Performance Under Hypoxia: A Network Meta-Analysis and Animal Experimental Validation of Plant Bioactive Compounds. |
| Vitamin C Fatigue Meta-Analysis | Background Hypoxic environments significantly impair exercise performance, whilst existing interventions are often limited by adverse effects or insufficient efficacy. | 1 | Ma H (2026) | Enhancing Exercise Performance Under Hypoxia: A Network Meta-Analysis and Animal Experimental Validation of Plant Bioactive Compounds. |
Source documents