evidence table
Urolithin A Exercise Performance Meta-Analysis Evidence Table
Structured evidence table for Urolithin A Exercise Performance Meta-Analysis, generated from 2 reusable source documents in the Migaku knowledge base.
| topic | claim | evidence level | citation | source |
|---|---|---|---|---|
| Urolithin A Exercise Performance Meta-Analysis | This review summarizes current evidence on nutritional compounds that target aging-related pathways, focusing on interventions that influence mitochondrial health, cognitive performance, immune function, metabolic regulation, and maintenance of muscle mass in older adults. | 4 | Kurtz JA (2026) | Targeted Supplementation and Nutritional Strategies for Healthy Aging: A Review of Physiological and Molecular Benefits. |
| Urolithin A Exercise Performance Meta-Analysis | Recent findings Evidence indicates that several targeted nutrients, including protein, probiotics, antioxidants, and emerging mitochondrial-support compounds, may contribute to healthy aging. | 4 | Kurtz JA (2026) | Targeted Supplementation and Nutritional Strategies for Healthy Aging: A Review of Physiological and Molecular Benefits. |
| Urolithin A Exercise Performance Meta-Analysis | A personalized, evidence-informed supplementation strategy integrated with exercise and balanced nutrition may help optimize physiological function in aging adults. | 4 | Kurtz JA (2026) | Targeted Supplementation and Nutritional Strategies for Healthy Aging: A Review of Physiological and Molecular Benefits. |
| Urolithin A Exercise Performance Meta-Analysis | Purpose of review Aging is marked by progressive physiological decline driven by chronic inflammation, mitochondrial dysfunction, and impaired metabolic and musculoskeletal resilience. | 4 | Kurtz JA (2026) | Targeted Supplementation and Nutritional Strategies for Healthy Aging: A Review of Physiological and Molecular Benefits. |
| Urolithin A Exercise Performance Meta-Analysis | Sarcopenia is a progressive and multifactorial muscle disorder associated with diminished strength, reduced functional capacity, and increased risk of adverse health outcomes including frailty, falls, and mortality. | 4 | Chin HS (2026) | Molecular Mechanisms and Nutritional Modulation in Sarcopenia: A Narrative Review. |
| Urolithin A Exercise Performance Meta-Analysis | This review examines emerging evidence linking anabolic resistance, mitochondrial dysfunction, neuromuscular instability, and chronic inflammation to impaired regeneration and disrupted proteostasis. | 4 | Chin HS (2026) | Molecular Mechanisms and Nutritional Modulation in Sarcopenia: A Narrative Review. |
| Urolithin A Exercise Performance Meta-Analysis | Although exercise remains the cornerstone therapy, its benefits are often constrained in patients with multimorbidity or reduced mobility. | 4 | Chin HS (2026) | Molecular Mechanisms and Nutritional Modulation in Sarcopenia: A Narrative Review. |
| Urolithin A Exercise Performance Meta-Analysis | Despite its clinical burden, the molecular pathogenesis of sarcopenia remains poorly understood, which hinders the development of precise therapeutic strategies. | 4 | Chin HS (2026) | Molecular Mechanisms and Nutritional Modulation in Sarcopenia: A Narrative Review. |
Source documents