Individuals have searched for the secret to anti-aging for thousands of years. Although many have sought out the fountain of youth—most have come up short in one form or another.
Until the introduction of NAD3…
Designed as an all-natural NAD+ Booster—NAD3 was created to provide an array of health benefits to improve health and the hallmarks associated with aging.
As the world’s most effective NAD+ booster—NAD3 works by activating sirtuins, the healthy-aging and survival protein and increasing telomerase activity to protect DNA. Additionally it also boosts NAD+ the crucial co-enzyme associated with mitochondrial production.
Recently a study was completed showcasing the effects of NAD3 on the hallmarks of aging and clinical endpoints of health in middle aged adults. The analysis looked at blood cell NAD+ concentrations,lipid metabolism and various other health markers.
Let’s take a closer look into the results of the study and potential implications of the research moving forward.
How was the Study Designed?
Clinical data had suggested that theacrine and theacrine-based supplements may help modulate the biological processes associated with lipid metabolism and aging. Twenty-eight participants (12 male, 16 female) were given NAD3 or a placebo daily over the course of 12 weeks.
Blood samples were obtained in the morning following overnight fasts and markers associated with total cholesterol, LDL cholesterol, and LDL:HDL were measured. Eligible participants were all between the ages of 40 and 65 years of age with a BMI between 18.5 and 34.9. Additionally they had to be free of cardiovascular diseases such as morbid obesity, type II diabetes and hypertension.
Eligible participants could not consume “healthy aging” or longevity products for two weeks prior to screening or throughout the study. Furthermore, each individual could not consume more than two alcoholic drinks per day.
Results from the Study
In terms of blood pressure outcomes, no discernable differences were noted. However, total cholesterol and LDL cholesterol levels were significantly decreased following a regular NAD3 supplementation regimen.
Overall, significant interactions were noted for total and LDL cholesterol levels in which values significantly decreased with NAD3 supplementation. The concluding data suggests that theacrine and ITC-based supplements can positively alter molecular markers related to lipid metabolism, cardiometabolic health and the dhallmarks of aging.
This is the first time human data has suggested that theacrine and ITC-based supplements can positively affect the NAD+ metabolome in human blood cells.
Implications of the Study
Clinical trials associated with NAD+ suggest that it can effectively bring an array of health benefits related to anti-aging and overall health. Increasing NAD+ levels can effectively improve markers related to overall health including:
- Better focus
- Improved memory
- Better sleep
- More energy
- Faster metabolism
Additionally, NAD3 helps to minimize inflammation and increase energy levels. NAD3 works by suppressing the NLRP3 gene, a protein known to cause inflammation. It helps prevent and protect your body from this tissue that may cause inflammation. NAD3 impacts all key areas of cell health by boosting NAD+ the crucial coenzyme for mitochondrial function and activating sirtuins, the healthy-aging and survival protein.
If you’ve been looking to take the next step towards better health while simultaneously limiting the effects of anti-aging—be sure to check out NAD3. Now clinically proven to positively alter molecular markers related to lipid metabolism, cardiometabolic health and the hallmarks of aging—NAD3 may be just the boost you need to take your health to the next level.
What are you waiting for? Try your first dose of NAD3 and maximize your health today.
Source: Michael D. Roberts 1,*, Shelby C. Obsurn1, Joshua S. Godwin1, Bradley A. Ruple1 Michael La Monica2, Betsy Raub2, Jennifer Sandrock2 and Hector L. Lopez. Effects of NAD3® on Hallmarks of Aging and Clinical Endpoints of Health in Middle Aged Adults: a subset analysis focused on blood cell NAD+ concentrations and lipid metabolism