| dietary potassium magnesium sulphate (PMS) supplementation | No effect - did not significantly affect | growth performance | Animal | finishing pigs | 0.50% PMS added to the basal diet. | Preliminary Research on Dietary Supplementation of Potassium Magnesium Sulphate on Transport Stress in Finishing Pigs Prior to Slaughter. |
| magnesium intake | Increases - were significantly and positively associated with | physical performance | Human | older adults | Not specified | Minerals and Sarcopenia; The Role of Calcium, Iron, Magnesium, Phosphorus, Potassium, Selenium, Sodium, and Zinc on Muscle Mass, Muscle Strength, and Physical Performance in Older Adults: A Systematic Review.cited 167× |
| magnesium supplementation | Increases - improved | physical performance | Human | — | Not specified | Minerals and Sarcopenia; The Role of Calcium, Iron, Magnesium, Phosphorus, Potassium, Selenium, Sodium, and Zinc on Muscle Mass, Muscle Strength, and Physical Performance in Older Adults: A Systematic Review.cited 167× |
| daily magnesium oxide supplementation for 12 wk | Increases - seems to improve | physical performance | Human | healthy elderly women | 300 mg Mg/day | Effect of oral magnesium supplementation on physical performance in healthy elderly women involved in a weekly exercise program: a randomized controlled trial.cited 92× |
| oral magnesium supplementation (300 mg Mg/d) for 12 wk | Increases - significantly better | total Short Physical Performance Battery (SPPB) score | Human | healthy elderly women | 300 mg Mg/day | Effect of oral magnesium supplementation on physical performance in healthy elderly women involved in a weekly exercise program: a randomized controlled trial.cited 92× |
| 300 mg/d elemental magnesium (1 week loading strategy - A) | No effect - showed no decrease | performance | Human | n=13 | 300 mg/d elemental magnesium. | The effect of acute vs chronic magnesium supplementation on exercise and recovery on resistance exercise, blood pressure and total peripheral resistance on normotensive adults.cited 15× |
| 300 mg/d elemental magnesium (4 week loading strategy - Chr) | Decreases - showed a decrease | performance | Human | n=13 | 300 mg/d elemental magnesium. | The effect of acute vs chronic magnesium supplementation on exercise and recovery on resistance exercise, blood pressure and total peripheral resistance on normotensive adults.cited 15× |
| Magnesium supplementation | Increases - positive relationship | performance gains in resistance exercise | Human | — | 300 mg/d elemental magnesium. | The effect of acute vs chronic magnesium supplementation on exercise and recovery on resistance exercise, blood pressure and total peripheral resistance on normotensive adults.cited 15× |
| oral magnesium supplementation | No effect - No significant differences | physical performance | Human | COPD patients | — | Clinical trial on the effects of oral magnesium supplementation in stable-phase COPD patients.cited 21× |
| Magnesium supplementation | No effect - did not improve | performance | Human | male recreational runners | — | One week of magnesium supplementation lowers IL-6, muscle soreness and increases post-exercise blood glucose in response to downhill running.cited 14× |
| magnesium supplementation | Increases - improved | performance | Human | physically active individuals | 10-20% higher than sedentary requirements, in capsules 2 hours before training. | Effects of magnesium supplementation on muscle soreness in different type of physical activities: a systematic review.cited 5× |
| magnesium (Mg) supplementation (350 mg·d -1 , 10 days) | Increases - approached significance | performance for 65 and 75% RTF | Human | College-aged male and female subjects | — | Effects of Magnesium Supplementation on Muscle Soreness and Performance.cited 13× |
| magnesium (Mg) supplementation (350 mg·d -1 , 10 days) | Increases - approached significance | performance for total RTF | Human | College-aged male and female subjects | — | Effects of Magnesium Supplementation on Muscle Soreness and Performance.cited 13× |
| magnesium | No effect - vital for | respiratory performance | Human | COPD patients | Not specified | The Role of Trace Elements in COPD: Pathogenetic Mechanisms and Therapeutic Potential of Zinc, Iron, Magnesium, Selenium, Manganese, Copper, and Calcium.cited 2× |