Choosing the Right Hair Replacement System

If you're considering a hair replacement system, there are several options to choose from. These options include Mesh, Polymers, Transdermal Cosmetic Reconstruction (TCR), and Vacuum-assisted extraction (FUE). Read on to learn more about these options. Choosing the right hair replacement system is essential for your personal appearance.

Mesh

If you're considering a mesh hair replacement system, there are several things to know. First, it is important to know that the hair you'll be receiving is 100% human hair. Therefore, it is imperative that you follow certain aftercare instructions. For example, you should avoid lying on your head while wearing the system, as this can cause it to wear out faster. Also, you should avoid using too much heat when you style your new hair. To prevent this from happening, use heat protection products.

Another option is to wear an artificial integration topper. This topper will cover thinning areas, and it can be light to medium in density. In addition, it will also add more volume and length. The base is made of silk, and it features a silk parting that's both soft and sturdy for a natural appearance.

Mesh systems are long-lasting and will last for up to 12 months. However, they need maintenance every six to eight weeks. These appointments will help ensure that the system is well-maintained, and will last a full year.

Polymers

Polymers have many uses and are a major component of hair care products. They help to keep the hair in the desired shape and form, and they also provide antistatic, conditioning, and gloss benefits. However, polymers have some drawbacks. One of these is compatibility with the formulation vehicle, which can be difficult to meet in some products. For example, volatile organic compounds in finished products must be kept to a minimum, and water can compromise the polymer's film-forming capabilities.

Polymers are extremely large molecules composed of repeating units of small molecules. They can be one type of small molecule or a mixture of two or three different types of molecules. They can be found in nature in different forms and can also be synthesized in labs. Polymers can be shaped in linear, branched, or three-dimensional hyper-branched forms.

Polymer bases are made from silicone and polyurethane and are a common component in hair systems. These systems have a more natural look than mesh bases, and are more durable. They also provide a hairline that mimics your natural hairline.

Transdermal Cosmetic Reconstruction (TCR)

The Transdermal Cosmetic Reconstruction (TCR), or "skin graft" hair replacement system, is a revolutionary procedure that provides a natural-looking hairline. This non-invasive procedure utilizes the newest technology to implant hair directly on the scalp. The result is a hairline that appears to be ten years younger and restores the wearer's confidence.

The CTR graft is implanted onto the scalp using a specialized protocol for scalp preparation. This includes deep cleansing, exfoliation, and astringent treatment. The system is also designed to be undetectable and look completely natural. In addition, it is easy to do your normal activities while wearing your TCR hair replacement system. Once the grafts have been implanted, the system is designed to blend in with the surrounding scalp.

Vacuum-assisted extraction (FUE)

FUE hair transplant is more precise and requires fewer surgical steps than traditional hair transplants. Unlike traditional hair transplants, where a physician must touch the donor site and perform the extraction, FUE uses a robotic arm to do the procedure. The robotic arm uses a blunt dissection technique to extract follicular units, reducing trauma. By contrast, a manual FUE machine relies on a sharp edge, which results in more graft injury.

FUE is often associated with several risks. For example, the punch tip used during conventional FUE can crush a follicle. The resulting tissue buildup can interfere with the ascent of the follicle. Another potential risk is crushing of the bulbar segment of a follicle, which is particularly vulnerable to the punch. However, the pulling effect of texturing minimizes the risk of cutting and crushing by the punch tip. In addition, the frustoconical shape of the punch's lumen helps minimize the buildup of luminal tissue.

FUE also has a number of advantages over traditional strip harvesting. It requires less invasive techniques, and patients will experience shorter recovery times and fewer side effects. The FUE procedure also eliminates the need for a linear scar, which allows patients to wear shorter hairstyles without a hairline.