MAG MALATE RENEW 793MG 120'VC
Magnesium is a mineral that is involved in over 300 biochemical processes in the body. One of its most important functions is that it plays a key role in producing energy and maintaining muscle and nerve function. Unfortunately most people do not have sufficient levels of this essential mineral for optimal health. Studies suggest that 50-90% of people are deficient in magnesium.
Mag Malate Renew™ is a 100% pure combination of magnesium and malic acid. Malic acid is ionized in the body to form malate, which is a key intermediate in the energy production cycle that makes ATP, the fuel that allows cells to function. Low levels of ATP are commonly found in people suffering with fibromyalgia and are believed to play a significant role in the physical and mental symptoms of the condition. This has been confirmed in several studies which have found that magnesium malate reduces the symptoms of fibromyalgia and chronic fatigue such as muscle pain and brain fog.
Those who have been diagnosed with fibromyalgia or chronic fatigue may find some relief from its mental and physical symptoms using magnesium malate, as well as those who have not been diagnosed but have low energy levels and persistent fatigue.
The increased production of ATP also has promising implications for athletes, and some preliminary evidence is suggesting that magnesium malate may help improve endurance. In addition, athletes can also benefit from magnesium’s ability to help with proper muscle function.
AOR Advantage
Studies have found that the combination of magnesium and malic acid significantly reduces the symptoms of fibromyalgia. This combination may also be effective for relieving chronic fatigue syndrome. AOR’s Mag Malate Renew™ provides safe and effective relief for conditions of pain and fatigue.
Helps maintain proper muscle function
- A true chelate of magnesium and malic acid
- Reduces the symptoms of fibromyalgia and chronic fatigue syndrome
- High quality, 100% pure magnesium malate
- Enhances cellular energy production and muscle function