100MG NAD+ (Waiting on Labels)

,NAD+ (Nicotinamide Adenine Dinucleotide) is a naturally occurring coenzyme found in all living cells and plays a crucial role in cellular metabolism and energy production. As a key player in the conversion of food into energy, NAD+ is involved in critical biological processes such as DNA repair, cellular repair, and mitochondrial function. In scientific research, NAD+ is being extensively studied for its potential to enhance cellular health, delay aging, and promote longevity by supporting sirtuin activity, a group of proteins that regulate important processes like DNA repair, metabolism, and stress resistance.

Research indicates that NAD+ levels naturally decline with age, which has led scientists to explore its potential as an anti-aging intervention. By supplementing NAD+ or promoting its production, researchers aim to investigate its effects on cellular regeneration, mitochondrial health, and overall aging processes. NAD+ is also under study for its potential to improve cognitive function, immune response, and help in managing metabolic diseases.

Please note that NAD+ is for research purposes only and is not intended for human consumption or use outside of controlled laboratory environments.

Key Benefits of NAD+ for Research:

• Cellular Energy Production: Investigate its role in ATP production, which is critical for cellular metabolism and overall energy levels.
• Aging & Longevity: Study its impact on cellular repair mechanisms and longevity by supporting sirtuin activation and improving mitochondrial function.
• DNA Repair: Explore NAD+'s potential to enhance DNA repair processes, which are vital for maintaining cellular integrity.
• Cognitive Function: Research its effects on brain health, neuroprotection, and potential applications in neurodegenerative diseases.
• Metabolic Health: Study its potential to regulate insulin sensitivity, glucose metabolism, and other key aspects of metabolic function.

Scientific Studies & Data:

NAD+ has been widely studied for its role in maintaining cellular health and energy production. Research published in Nature Reviews Molecular Cell Biology has shown that NAD+ is essential for DNA repair and mitochondrial function, both of which play a crucial role in maintaining cellular integrity and preventing aging-related diseases. In animal studies, NAD+ supplementation has demonstrated the potential to improve endurance, mitochondrial health, and fat metabolism, while boosting sirtuin activity that regulates longevity and stress resistance.

Additionally, studies in the Journal of Clinical Investigation have shown that NAD+ precursors can potentially reverse some age-related cognitive decline and enhance neuroprotection. NAD+ depletion has been linked to neurodegenerative diseases such as Alzheimer's and Parkinson's disease, making it a promising area of research for those conditions.