Privacy statement: Your privacy is very important to Us. Our company promises not to disclose your personal information to any external company with out your explicit permission.
Model No.: DAYUE012
Brand: DAYUE
Standard: ASME
Surface Treatment: Polishing
Production Type: Batch Production
Machining Method: Other
Material: Other
Packaging: Vacuum Packing
Productivity: 100 pieces a day
Transportation: Ocean,Land,Air
Place of Origin: Dongguan
Certificate: ISO9001
Port: Yantian
Payment Type: L/C,T/T,D/P,Paypal,Money Gram,Western Union
Incoterm: FOB,CFR,CIF,EXW
FUE, which is conducted by using blades made from a precious gemstone called sapphire, is defined as the utilization of special sapphire blades instead of steel blades during the process of creating incisions within the recipient site.
FUE performed with sapphire blades is not a technique, it is an innovation implementing a new process within the FUE method.
The blades are designed to minimize scab formation and speed up the recovery process through opening smaller micro channels within the recipient site for transplantation.
In FUE (Follicular Unit Extraction) conducted with sapphire blades, after the patient is administered local anesthesia, hair follicles are extracted one by one from the donor area with the aid of a micro motor and micro punches in sizes of 0,6 – 0,7 – 0,8 diameters.
With the FUE method, the extracted hair follicles should be transplanted into the incisions that have been created.
These channels have a major influence on the density, angle and direction of hair growth, which are the determinants of obtaining a natural appearance.
For this reason, opening of the channels is considered to be the most important process for a successful operation.
The best possible way to open micro channels can now be achieved through the sapphire blades.
Hair follicles will be transplanted into these channels.
The small incisions, which are at the same length of hair follicles, are created using sharp, smooth and durable sapphire blades varying in sizes of 1,0 -1,3 – 1,5 mm. As a result more channels can be opened, enabling the hair follicles to be transplanted more closer to each other.
Some hair transplant centers claim that they can transplant 65-70 follicular units per square centimeter at which they would provide the patient with natural looking and dense hair.
Neither sapphire blades nor steel blades, can make it possible to obtain such high graft density.
Because, in order to create a natural-looking appearance, hair follicles must be transplanted taking into account the accurate angle and direction of hair growth.
If 65-70 follicular units per square centimeter were to be transplanted, it would be impossible to achieve a natural outcome, because creating incisions in alignment with the proper growth direction of the hair follicles would be prevented by such density.
The natural angle of hair growth is 40-45 degrees.
If hair follicles are transplanted perpendicular to the scalp, at the cost of obtaining density, this will create a pluggy look with unnatural results
Send your inquiry direct to this supplier
This is not you are looking for? Post a Sourcing Request Now
Product Categories : Custom Mechanical Components > Precious Metal Components
We are good at manufacturing special-shaped parts according to PDF, DWG, STEP and other engineering drawing formats. We have three subsidiaries in China. This allows us to have a large number of lathes/grinding machines/milling machines/EDM/EDM/boring machines/etc., the shortest service delivery time and a wide range of services, so that major Chinese companies gradually rely on DAYUE products and services.
Privacy statement: Your privacy is very important to Us. Our company promises not to disclose your personal information to any external company with out your explicit permission.
Fill in more information so that we can get in touch with you faster
Privacy statement: Your privacy is very important to Us. Our company promises not to disclose your personal information to any external company with out your explicit permission.