Nicotinamide mononucleotide (NMN) NOW AVAILABLE.
Enhanced muscle endurance: NMN has been shown to increase the production of nicotinamide adenine dinucleotide (NAD+), a coenzyme involved in cellular energy production.
Improved muscle recovery: NAD+ plays a crucial role in cellular repair and maintenance. By replenishing NAD+ levels.
Mitochondrial function: NMN has been found to support mitochondrial function, which is essential for energy production and overall cellular health. Improved mitochondrial function can contribute to enhanced muscle performance and recovery.
Anti-inflammatory effects: Chronic inflammation can hinder muscle recovery and contribute to the aging process. NMN may help reduce inflammation through its effects on NAD+ metabolism, potentially benefiting individuals seeking anti-aging effects.
By boosting NAD+ levels, NMN may support DNA repair and protect against age-related damage, potentially contributing to anti-aging effects.
Metabolic regulation: NMN has shown promise in supporting metabolic health by influencing processes such as glucose metabolism and insulin sensitivity. These effects may be beneficial for bodybuilders looking to optimize their body composition and for individuals aiming to combat age-related metabolic decline.
Cardiovascular health: NAD+ is involved in various aspects of cardiovascular function, and NMN's ability to support NAD+ levels may have positive implications for heart health. This is relevant for both bodybuilders seeking enhanced cardiovascular performance and individuals interested in anti-aging strategies.
Cognitive function: NAD+ is also involved in maintaining cognitive function and brain health. By supporting NAD+ levels, NMN may help protect against age-related cognitive decline and promote optimal brain function, which is relevant for both bodybuilders and those focused on anti-aging.
Sirtuin activation: NAD+ is a critical cofactor for sirtuins, a family of proteins associated with longevity and various cellular processes. NMN-induced elevation of NAD+ levels may support sirtuin activation, potentially contributing to anti-aging effects.