Usually, in a person’s thirties (or earlier, depending upon genetics or health factors), their melanocytes begin to slow down in their production of melanin. This typically occurs just in a few follicles and then gradually spreads throughout the scalp. Random hairs may become lighter and may not even be noticed, but eventually some begin to show as gray or white. This is much more noticeable in darker hair, so the perception is often that people with black hair go gray earlier, but that is probably not the case. As melanin particles disappear from the cortex, certain changes to the structure and properties of the hair can be expected. While people do experience their gray hair as being very similar to their pigmented hair, this is definitely not universally true. It is possible that those who had more highly pigmented hair to begin with (brunette, as opposed to blonde) will experience greater changes in the physical properties of their hair once those pigments are gone.
Melanin exists as granules that are dispersed throughout the cortex in human hair, amongst the proteins, water molecules, and fatty acids. These granules have differing geometry and distribution, depending upon which type they are. Eumelanin is generally evenly distributed throughout the cortex, has an oval shape, and has sharply defined edges. Pheomelanin is more randomly distributed in the cortex and also is more irregularly shaped, often having both an oval shaped end and a rod-like end. The presence of these particles in the cortex may contribute to some of the mechanical properties of the hair strand, such as elasticity and strength. Another important role of melanin is to act as a protectant from environmental damage by absorbing ultraviolet radiation. The structure of the polymer enables it to absorb UV energy and release it as heat via a photochemical process, thereby preventing it from attacking and damaging the protein structures of the hair.
Once melanocytes are no longer manufacturing melanin, they die. Their absence sometimes causes the follicle to change shape slightly, which results in a slightly different shape for subsequent hairs that grow from that follicle. This is important, because the geometry of a hair strand is a significant contributing factor to the curl pattern, or lack thereof, for that hair. This explains why the texture of some gray hairs often varies significantly from the rest of the hair. This can certainly be perplexing and frustrating.
One notable feature of gray hair that can contribute to its having different properties from pigmented hair is the presence of a medulla. Most animal fur contains a central hollow core called the medulla, which provides insulation for the mammal. In contrast, this feature is generally missing in human hair, but sometimes appears in white strands. This presence of this hollow core may change the physical properties of the hair, making it more wiry and unruly.
An additional explanation for variations in the properties of white hair is found in the absence of melanin particles from the cortex. This changes the overall structure of the region, which may affect properties of the hair, such as curl pattern, elasticity, or strength. Also, the cuticle of gray hair strands is often tighter than pigmented hair, making it more difficult to process chemically as well. This is especially relevant when attempting to hide gray hair with color. Gray hair typically needs a longer processing time or a pre-treatment to open the cuticle to allow penetration of the artificial dyes.
Perhaps the most significant feature of white hair is its vulnerability to damage from the sun. The absence of its natural sunscreen, melanin, leaves hair highly susceptible to mechanical degradation from UV radiation. This can lead to broken hairs, split ends, frizz, excessive tangling, and cuticle damage. The surface of hair can even lose its natural hydrophobic protection and become hydrophilic, allowing far too much water to penetrate into the hair, causing irrevocable damage. White hair is also vulnerable to yellowing from the sun due to oxidation.
Gray and white hair behave differently from your pigmented hair. It may be curlier, straighter, or wirier than the hair of your youth. It is also drier, more delicate, and prone to breakage or yellowing. Despite your best efforts, it may also be resistant to coverage when chemical dye processes are attempted. Some of these changes may require you to manage your own expectations and learn how to work with the hand you have been dealt, but many of the challenges can be overcome by making some adjustments to your usual routine. Take charge of your gray hair by embracing its differences and nourishing it daily. Gray hair, dyed or not, can be healthy and beautiful!
- CONDITION, CONDITION, CONDITION. Your gray hair requires more moisture than your once youthful, delicate curly locks. Natural oils, honey or agave treatments, deep conditioning protein packs, as well as daily leave-in conditioners can all help optimize the health of these fragile strands.
- APPLY COLOR TO GRAY OR WHITE HAIR FIRST, and let it sit longer to ensure penetration of the dyes. Some salons recommend application of a peroxide solution to gray hair prior to coloring, in order to prepare the cuticle, but use caution as this could be more damaging to the hair.
- IF YOUR GRAY COVERS MORE THAN 35% OF YOUR SCALP, consider using a clarifying shampoo or vinegar rinse about once a month so to remove mineral build up that can cause discoloration of your hair.
- BE MINDFUL THAT HEAT CAN BE MORE DAMAGING TO WHITE HAIR. Minimize its exposure to extreme high temperatures found in many straightening processes particularly.
- PROTECT YOUR HAIR FROM HARMFUL UV RAYS! Wear a hat, swim cap, or scarf if you plan to spend a lot of time in the sun. Use conditioning and styling products that contain UV-absorbing ingredients, such as cinnamidopropyltrimonium chloride or octyl methoxy cinnamate, which have been found to significantly reduce the negative effects of the sun on the mechanical properties of the hair. In addition to maintaining the mechanical integrity of the hair, these have been found to reduce yellowing of white and gray hair.