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Global skin of color is the ultimate future snapshot of skin care consumers, and beauty brand owners and markets who ignore the phenomenon of the multitude of skin races are out of touch with the reality concerning the trends that will dictate products and industry development in the near future, and will miss the opportunity to learn how to work with this ever-increasing population successfully. The beauty industry must be prepared for this prospect, and learn to recognize what is appropriate and inappropriate concerning treatments, ingredients and products for skin of color.
There are significant differences between global skin types. Just look at the rainbow of skin colors that make up the millions of skin types and where they originate. Cosmetically speaking, black skin has a wide range of color variations from a creamy light coffee color to deep ebony black. Asian skin exhibits colors that range from a light yellow hue to a dark golden tan. Native American skin colors vary with respect to different tribes, and have coloring that ranges from light to dark red-brown. Even white skin is misinterpreted visually and put into inaccurate categories. Caucasian skin ranges greatly from milky alabaster white to dark olive tones.
Darker global skin types are much more reactive to topical agents such as alpha hydroxy acids (AHAs), beta hydroxy acids (BHAs), trichloroacetic acid (TCA) and many different ingredients, and are more sensitive to these constituents than Caucasian skin. Unfortunately, many misunderstand the darker global skin combinations and treat skin of color as if it were Caucasian, which can trigger an inflammatory response leading to unwanted problems. This can result in devastating side effects, such as hypopigmentation and hyperpigmentation. These very avoidable mistakes not only affect consumers cosmetically and emotionally, but destroy the trust between brand and customer.
Melanocytes, melanin and pigmentation formulate the key color distinction of skin. The content of melanin within keratinocytes determines skin color, with deeply pigmented skin having the highest content of epidermal melanin. Melanin is a complex molecule responsible for the pigment in the skin, hair and eyes. This molecule works to protect by reducing the penetration of UV rays into the skin and subsequently into the nuclei of cells where DNA resides.
It is well-established that there are no racial differences in the number of melanocytes; however, the actual number of melanocytes does differ from one individual to another, and from one anatomical region of the body to another, with the head, neck and forearms having the highest number.
Racial and ethnic differences in skin color are due to the number, size and aggregation of melanosomes within the melanocyte and keratinocytes. Racial or ethnic differences in the size and aggregation of melanosomes within keratinocytes have been clearly established. In Caucasian global skin types, melanosomes are smaller in size and contain less melanin than those in black skin.
It has also been determined that melanosomes are larger, more oval and denser in dark-skinned individuals compared to lighter-skinned individuals. Similarly, not all white and Asian skin has small melanosomes, nor are the melanosomes always aggregated. Total melanin content is greater in people with darker skin compared to those with lighter skin.
The amount of melanin is the very basis of skin-typing classification, an important factor in cataloging skin history for UV radiation reaction. The increase of epidermal melanin content of darker-skinned individuals provides greater intrinsic photo protection. Simply put, higher melanin concentration translates into better photo protection from UV radiation and delays the clinical appearance of photoaging brought on by photodamage, especially in lighter skin types that are more prone to UV burn.
Melanosome groupings are also affected by sun exposure. Asian skin exposed to sunlight has a predominance of nonaggregated melanosomes, whereas unexposed skin has predominately consolidated melanosomes. The effects of UV and visible light on human skin include sunburn, suntan, phototoxic and photoallergic reactions, as well as post-inflammatory hyperpigmentation (PIH).
Physiology of the Skin, Third Edition addresses the biochemistry and free radical damage that changes young skin into old skin, with a specific focus on both extrinsic and intrinsic issues. Acne and oily skin is covered in detail.
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