Scientific background
Creatine monohydrate: muscle strength, brain en...
When it comes to long life, the focus is often on molecules that affect ageing at the cellular level. Yet more and more research shows that one of the strongest...
Creatine monohydrate: muscle strength, brain en...
When it comes to long life, the focus is often on molecules that affect ageing at the cellular level. Yet more and more research shows that one of the strongest...
NMN (Nicotinamide Mononucleotide): targeted sup...
A consistent finding within modern aging science is that the body produces less and less NAD⁺ over the years. NAD⁺ is an essential molecule needed for energy production in the...
NMN (Nicotinamide Mononucleotide): targeted sup...
A consistent finding within modern aging science is that the body produces less and less NAD⁺ over the years. NAD⁺ is an essential molecule needed for energy production in the...
Nicotinamide Riboside (NR): support for NAD⁺ me...
Within the biology of ageing, nicotinamide adenine dinucleotide (NAD⁺) plays a central role. NAD⁺ is an essential coenzyme for mitochondrial energy production, DNA repair processes, and the regulation of cellular...
Nicotinamide Riboside (NR): support for NAD⁺ me...
Within the biology of ageing, nicotinamide adenine dinucleotide (NAD⁺) plays a central role. NAD⁺ is an essential coenzyme for mitochondrial energy production, DNA repair processes, and the regulation of cellular...
Trimethylglycine (Betaine): Mechanisms, effects...
Trimethylglycine, better known as betaine, is a molecule present in the body that plays a central role in one-carbon metabolism as a methyl donor. Although betaine is mainly associated by...
Trimethylglycine (Betaine): Mechanisms, effects...
Trimethylglycine, better known as betaine, is a molecule present in the body that plays a central role in one-carbon metabolism as a methyl donor. Although betaine is mainly associated by...
Trans-Resveratrol: Cellular Stress Response, Nu...
Trans-resveratrol affects cellular stress responses and nutrient-sensing pathways such as AMPK and SIRT1 and shows synergy with NAD⁺-related metabolic systems.
Trans-Resveratrol: Cellular Stress Response, Nu...
Trans-resveratrol affects cellular stress responses and nutrient-sensing pathways such as AMPK and SIRT1 and shows synergy with NAD⁺-related metabolic systems.