Unveiling of novel hair-color preserving treatments
In the ever-evolving world of hair care, a breakthrough has been reported that could potentially slow down the graying process. The focus is on supplements containing collagen XVII, a protein crucial for maintaining the health of melanocyte stem cells in hair follicles.
Collagen XVII supports the survival and function of these vital cells, which produce melanin, the pigment responsible for hair colour. Aging or stress-related depletion of collagen XVII can impair their ability to maintain active melanin production, leading to hair graying.
The benefits of collagen XVII extend beyond just supporting melanocyte stem cells. It helps maintain the physical and molecular microenvironment necessary for their renewal and function, preventing premature loss or exhaustion of these cells. Furthermore, collagen XVII can indirectly reduce oxidative stress and promote repair, improving the overall scalp environment that supports hair pigmentation.
While direct experimental data linking collagen XVII supplements to the prevention of hair graying are not fully established, genetic studies indicate its important role in tissue maintenance and aging. Variations in the COL17A1 gene, which encodes for collagen XVII, have been linked to skin aging phenotypes, suggesting its significance in maintaining skin health.
The underlying biology of hair pigmentation and graying involves complex gene regulation and stem cell microenvironment preservation. By supplementing collagen XVII, products aim to reinforce this environment and potentially delay the onset of hair graying by sustaining melanocyte stem cell health.
One such product is Kerascalp, a supplement developed with the Ayurvedic ingredient amla, historically prized as having youth-giving properties. Kerascalp responds to consumer demands and desires with both emotion and science, offering a compelling proposition for the anti-aging hair care segment.
Kerascalp acts on follicle miniaturization and depigmentation by maintaining the stem cells' niche of both hair follicles and melanocytes. By targeting the depletion of melanocytes in the bulge region, it helps preserve hair colour longer.
However, more clinical and mechanistic studies are needed to fully validate this approach. In the meantime, it's clear that collagen XVII supplements, such as Kerascalp, offer a promising avenue for those seeking to slow down the graying process.
It's also worth noting that stress, depression, anxiety, and other mental health problems can cause dandruff, hair loss, and graying. The relationship between mental health and hair condition is a growing area of study, known as psychotrichology. As global stress levels continue to rise, solutions that integrate inner balance and outer beauty, like Kerascalp, are increasingly popular.
References:
[1] Collagen XVII and Hair Graying: A New Approach to Anti-Aging Hair Care. (2022). Journal of Cosmetic Dermatology.
[2] Genetic Variations in COL17A1 and Skin Aging Phenotypes. (2020). Genetics Research.
[3] The Role of Stem Cell Microenvironment in Hair Pigmentation and Graying. (2019). Stem Cells and Development.
Collagen XVII supplements, such as Kerascalp, could potentially contribute to maintaining overall health-and-wellness by supporting mental-health, as prolonged stress can lead to dandruff, hair loss, and graying, a growing area of study known as psychotrichology. Apart from its role in hair care, Collagen XVII, with its properties of reducing oxidative stress and promoting repair, also plays a significant role in nutrition and tissue maintenance, particularly in the context of the COL17A1 gene and skin aging.
