What is NAD+, how does it occur, and why is it essential to your cells? NAD+ stands for Nicotinamide Adenine Dinucleotide, and it is a coenzyme.
A coenzyme is a compound that helps other enzymes work, which makes NAD vital for the necessary actions in your cells. NAD occurs as either NADH or NAD+, and this article looks at the importance of supersaturating your cells with the latter form.
Here are the benefits you get when you supersaturate your cells with NAD+:
Locomotion Benefit – Muscle Health
Human muscles require NAD to produce the energy needed to relax and contract when moving, like the locomotion skeletal muscle. Different mouse studies have revealed that saturating the cells with NAD+ in conditions linked with reduced NAD can help sustain muscle function.
Replenishing NAD helped improve the skeletal and mitochondrial muscle function of the aging mice, which is true of human beings. Mitochondria are mighty or “power horse “organelles present in most human cells, and they help in energy production and cellular respiration.
Vitality Benefit – Cardiovascular Health
The heart is always beating, and it requires a lot of cellular energy to remain active. It has more mitochondria than all other tissues in the body due to its metabolism activity.
An overworking heart can lead to a metabolic overdrive and decrease in its cells and mitochondria health. Different animal studies have shown that supersaturating NAD with NAD+ can improve cardiac and mitochondrial function in animals with deteriorating hearts.
The heart only forms a small section of human cardiovascular health. It drives the blood via the vascular system, an extensive network of veins, capillaries, and arteries. The blood reaches all tissues in the body from this network.
Several animal studies have shown that supersaturating NAD with NAD+ can result in a healthy vascular system and optimize the blood flow. Some studies have even shown that NAD+ can help to decrease blood pressure and arterial stiffness.
Cognation Benefit – Neurological Health
Our brains require a steady supply of glucose and oxygen to produce the energy needed to maintain a healthy function. The brain might be small, but it still uses about 20% of our oxygen supply.
Researchers have also conducted different studies that show a link between mitochondrial and brain health. Recent mouse studies have demonstrated that supersaturating NAD with NAD+ can enhance mitochondrial function.
Our brains require neurons to know what to do, and these cells are spread all over our bodies. These exterior neurons collect sensory information from our surroundings and supply our organs with nerves to deliver the message to a central command area and back to our brains.
Research in rodents has shown that supersaturating NAD with NAD+ can enable these neurons to be more effective. One study showed that a high NAD level could reverse the hearing loss and sensory neuro damage due to loud noises.
Sensory Benefit – Hearing
A study done to investigate the relationship between age and NAD levels concluded that low NAD levels could lead to hearing loss. The researchers supersaturated NAD levels with NAD+ in mice with hearing problems and improved hearing high-frequency sounds.
That improvement was noted to be better in mice with severe hearing losses. The research also showed an increase in inner hair cells due to the high levels of NAD+ in the cells.
This increase was said to enhance neuronal communication and the inner hair cell response to aural stimuli, meaning a reserve in high-pitched hearing loss. These studies also showed that supersaturating NAD could reduce or delay age-related hearing problems in people.
Vitality Benefit – Metabolic Health
Our livers are metabolically active tissues. It filters the blood, metabolizes nutrients from the food, processes medications, and detoxifies chemicals in our body.
Metabolism depends on NAD, and the liver is among the dozens of tissues that get affected by decreasing NAD levels. Several studies on rats have shown that boosting NAD with NAD+ can maintain healthy liver functions, especially in people suffering from alcohol consumption or overnutrition.
Higher levels of NAD also improve glucose tolerance in people who have diabetes and even reverse the whole-body metabolic consequences of a high-fat diet.
Vitality Benefit – Innate Immunity
High levels of NAD positively affect anti-inflammatory and pro cytokines and have been shown to maintain defense and resilience against stress like immune stress. Researchers found that SARS-CoV-2 impacts NAD genes and can reduce NAD production and use in a recent study.
You can guarantee the desired level of NAD in the body by supersaturating NAD+, which will ensure other functions’ support.
Cytokines are minute proteins that help in cell communication.
Psychological Benefit – Reduce Depression
Brain inflammation is usually linked to different psychological disorders, and depression and NAD can help reduce this depression.
A study was done to investigate the link between the brain and gut microbiota. The researchers supersaturated NAD+ in mouses in this alcohol-induced depression behavior study.
The researchers noted decreased anti-inflammatory and pro-inflammatory cytokines in the depressive subject, showing an anti-inflammatory role of supersaturated NAD.
Anti-Aging Benefit – DNA Repair
Aging interferes with the normal process of converting DNA into proteins. Many errors and mutations appear in older people, and some studies have linked this to age-related reduction in NAD levels.
NAD helps to regulate proteins that repair and prevent damage to DNA. It also allows the mitochondria to fold proteins into the right shapes.
The secret behind DNA repair is that a faulty repair system is linked to cell death and tumorigenesis. Supersaturating NAD with NAD+ can help promote cell survival and reduce cancer risk.
High levels of NAD also help to reverse and prevent vascular aging, leading to inadequate blood flow around the body. This is what causes the signs of aging, such as wrinkles.
No single nutritional program or supplement works in a day. However, supersaturating NAD+ in your body can promote cellular energy production and metabolic function, normal inflammatory response, and mitochondrial activity. Click here to read about our Ozone therapy services.