NAD Hair Growth
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It balances hormones to prevent hair loss and promote hair growth.
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It reduces the heat sensation of the scalp and soothes itching or redness.
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It provides energy source of cell regeneration and boosts the vitality of the scalp.
Consist of:
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Exosome over 6 billions
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Recombinant Human Stem Cell
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26 types of growth factors, 1848 types of proteins
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Hyaluronic acid
What makes NAD Hair Growth unique when compared with other treatments?
How long is the downtime after procedure?
NAD Hair Growth is a product that does not contain any preservatives. Additionally, there are no factors that cause swelling or allergy after the procedure. Consequently, the downtime is very short that you can promptly return to daily life.
How often should I do NAD Hair Growth therapy?
It is recommended to do NAD Hair Growth 3 to 5 times at intervals of 2-3 weeks, depending on the skin condition.
Does NAD increase hair growth?
NAD+ (nicotinamide adenine dinucleotide) is a crucial coenzyme involved in various cellular processes, including energy production, DNA repair, and cellular regeneration. It has been found to play a role in the hair growth cycle and may help stimulate the growth and maintenance of healthy hair follicles.
Benefits:
What are Stem Cells?
Stem cells are basic cells. They can produce a variety of different cells through cell division and growth, including skin, hair and organs. The phenomenon by which old skin and hair is replaced with new skin and hair (turnover) is one that occurs when stem cells divide and grow. If turnover cannot take place unhindered, aging in the form of wrinkles, blemishes and so on, can occur. That’s why stem cells have received so much attention in the areas of regenerative medicine and regenerative beauty care.
What are stem cell growth factors?
The substances that give the commands for stem cells, whose function is to cause regeneration, to divide and grow are called “Stem Cell Growth Factors”. Without commands from stem cell growth factors, stem cells cannot activate. In other words, they work in partnership with stem cells.
What are human-type stem cells?
The stem cells that are most generally available come from plants or human beings. Because plant-derived stem cells have a completely different cell structure, their effects are not noticeable. Human-derived stem cells are components taken from actual people, but in order to refine them during extraction, the stem cells and stem cell growth factors are removed, so the regenerative effects of the stem cells are not noticeable.
Thus, human-type stem cell growth factors (human-type stem cells) were developed. These human-type stem cells act on your own stem cells. These substances are the result of synthesising stem cell growth factors with the same genetic structure as human using biotechnology. In addition to regenerating cells, they are also known to reactivate the melanin cells that thicken hair and healthy from the root up. As humans, they are safe.
Understanding the Science of Grey Hair
Before we dive into NMN and its potential role in hair pigmentation, let's first understand why our hair turns grey as we age. The colour of our hair is primarily determined by melanin, a pigment produced by melanocytes in hair follicles. There are two types of melanin: eumelanin, which is responsible for black and brown colours, and pheomelanin, which is responsible for red and yellow colours.
As we age, several factors contribute to the greying of hair:
1. Decline in Melanocyte Activity
Aging reduces melanocyte function, which results in decreased melanin production.
2. Genetic Factors
Genetics significantly determines when and how quickly your hair turns grey. If your parents or grandparents experienced premature greying, you may also be more likely to do so.
3. Oxidative Stress
The accumulation of free radicals and oxidative stress over time can damage melanocytes and disrupt melanin production.
4. Hormonal Changes
Changes in hormonal levels, particularly in menopause or andropause, can influence hair pigmentation.
Can NMN reverse grey hair?
Many people seek ways to slow down or even reverse this process. In recent years, a compound we know all too well, NMN (Nicotinamide Mononucleotide), has gained attention for its potential role in hair pigmentation restoration.
The Role of NMN in Greying Hair
NMN is a molecule that plays a crucial role in the production of a compound called NAD+ (Nicotinamide Adenine Dinucleotide). NAD+ is essential for various cellular processes, including DNA repair, energy production, and the regulation of oxidative stress. It is also closely linked to aging, as NAD+ levels tend to decline as we age (R).
Some studies suggest that raising NAD+ levels may have several potential benefits, including energy metabolism and longevity improvements. Since oxidative stress and DNA damage are implicated in the greying of hair. NMN and the subsequent increase in NAD+ could reverse grey hair.