evidence table
Vitamin C Immunity Meta-Analysis Evidence Table
Structured evidence table for Vitamin C Immunity Meta-Analysis, generated from 2 reusable source documents in the Migaku knowledge base.
| topic | claim | evidence level | citation | source |
|---|---|---|---|---|
| Vitamin C Immunity Meta-Analysis | Vitamin D and Health Outcomes: State-of-the-Art Review of Triangulated Evidence and Ongoing Controversies. | 3 | Dalamaga M (2026) | Vitamin D and Health Outcomes: State-of-the-Art Review of Triangulated Evidence and Ongoing Controversies. |
| Vitamin C Immunity Meta-Analysis | The diagnosis is supported by a history of recurrent suggestive symptoms correlated with evidence of BHR []. | 4 | Chereches-Panta Paraschiva (2026) | Nutrition as a Modifiable Factor in Optimizing Respiratory Health: Evidence from Pulmonary Function Tests |
| Vitamin C Immunity Meta-Analysis | The correlation between FEV1 and MMEF and the level of asthma control or the risk of exacerbation is a topic of ongoing interest [,]. | 4 | Chereches-Panta Paraschiva (2026) | Nutrition as a Modifiable Factor in Optimizing Respiratory Health: Evidence from Pulmonary Function Tests |
| Vitamin C Immunity Meta-Analysis | For example, children with food sensitization in the first two years of life are at higher risk of recurrent wheezing or asthma []. | 4 | Chereches-Panta Paraschiva (2026) | Nutrition as a Modifiable Factor in Optimizing Respiratory Health: Evidence from Pulmonary Function Tests |
| Vitamin C Immunity Meta-Analysis | 1 2 The pathogenesis of asthma is complex and involves a combination of genetic and environmental factors, including air pollution and lifestyle factors. | 4 | Chereches-Panta Paraschiva (2026) | Nutrition as a Modifiable Factor in Optimizing Respiratory Health: Evidence from Pulmonary Function Tests |
Source documents