evidence table
Vitamin C Exercise Recovery Meta-Analysis Evidence Table
Structured evidence table for Vitamin C Exercise Recovery Meta-Analysis, generated from 2 reusable source documents in the Migaku knowledge base.
| topic | claim | evidence level | citation | source |
|---|---|---|---|---|
| Vitamin C Exercise Recovery Meta-Analysis | Findings were synthesized narratively due to heterogeneity in interventions and diagnostic criteria, and risk of bias was assessed using design-appropriate tools. | 1 | Serôdio IN (2026) | Preventing Complex Regional Pain Syndrome After Distal Radius Fracture: A Systematic Review of Rehabilitation and Clinical Prophylaxis Strategies. |
| Vitamin C Exercise Recovery Meta-Analysis | Light therapy was associated with reduced CRPS occurrence in a single study, while early active home-exercise programs appeared promising but were supported by a limited number of studies. | 1 | Serôdio IN (2026) | Preventing Complex Regional Pain Syndrome After Distal Radius Fracture: A Systematic Review of Rehabilitation and Clinical Prophylaxis Strategies. |
| Vitamin C Exercise Recovery Meta-Analysis | Study designs and CRPS diagnostic criteria varied, and risk of bias was moderate-to-serious in several non-randomized studies. | 1 | Serôdio IN (2026) | Preventing Complex Regional Pain Syndrome After Distal Radius Fracture: A Systematic Review of Rehabilitation and Clinical Prophylaxis Strategies. |
| Vitamin C Exercise Recovery Meta-Analysis | Background : Complex regional pain syndrome (CRPS) is a disabling post-traumatic pain condition that may occur after distal radius fracture (DRF), potentially impairing recovery and upper-limb function. | 1 | Serôdio IN (2026) | Preventing Complex Regional Pain Syndrome After Distal Radius Fracture: A Systematic Review of Rehabilitation and Clinical Prophylaxis Strategies. |
| Vitamin C Exercise Recovery Meta-Analysis | Background A growing body of evidence supports the use of supplements to enhance cycling performance through both direct and indirect mechanisms. | 3 | Rowland A (2026) | A comprehensive review of the physiology and evidence base to guide the use of ergogenic and medical supplements for enhanced cycling performance. |
| Vitamin C Exercise Recovery Meta-Analysis | Evidence-based options for cyclists include calcium, cherry juice, collagen, curcumin, iron, multivitamins, omega-3 fatty acids, pickle juice, probiotics, protein, vitamin C, vitamin D and zinc. | 3 | Rowland A (2026) | A comprehensive review of the physiology and evidence base to guide the use of ergogenic and medical supplements for enhanced cycling performance. |
| Vitamin C Exercise Recovery Meta-Analysis | Each contribute to either improved recovery, immune support or long-term physiological adaptation. | 3 | Rowland A (2026) | A comprehensive review of the physiology and evidence base to guide the use of ergogenic and medical supplements for enhanced cycling performance. |
| Vitamin C Exercise Recovery Meta-Analysis | Methods This review was informed by a structured literature search conducted in PubMed, Scopus and Web of Science for peer-reviewed studies published up to May 2025. | 3 | Rowland A (2026) | A comprehensive review of the physiology and evidence base to guide the use of ergogenic and medical supplements for enhanced cycling performance. |
Source documents