One small Greek study showed that the R20 method—four passes with the laser, twenty minutes apart—caused more breaking up of the ink than the conventional method without more scarring or adverse effects. However, this study was performed on a very small patient population (12 patients total), using the weakest of the QS lasers, the 755 nm Alexandrite laser. One of the other main problems with this study was the fact that more than half of the 18 tattoos removed were not professional and amateur tattoos are always easier to remove. Proof of concept studies are underway, but many laser experts advise against the R20 method using the more modern and powerful tattoo removal lasers available at most offices as an increase in adverse side effects including scarring and dischromia is likely. Patients should inquire about the laser being used if the R20 treatment method is offered by a facility as it is usually only offered by clinics that are using the weak 755 nm Alexandrite as opposed to the more powerful and versatile devices that are more commonly used. Moreover, dermatologists offering the R20 method should inform patients that it just one alternative to proven protocols and is not a gold standard treatment method to remove tattoos.
“Eraser Clinic does tattoo removal ONLY. I am very happy with the results of my treatments there. I advise people against the general laser establishments as they are not as trained or as knowledgeable. I also highly advice against the acids/bleaches/sandpaper methods, it is 100-year old technology and speaking from experience it seriously scars the skin making it nearly impossible to tattoo afterwards. Be smart, go to a proven place with proven technology and track record.”
Tattoo pigments have specific light absorption spectra. A tattoo laser must be capable of emitting adequate energy within the given absorption spectrum of the pigment to provide an effective treatment. Certain tattoo pigments, such as yellows and fluorescent inks are more challenging to treat than darker blacks and blues, because they have absorption spectra that fall outside or on the edge of the emission spectra available in the tattoo removal laser. Recent pastel coloured inks contain high concentrations of titanium dioxide which is highly reflective. Consequently, such inks are difficult to remove since they reflect a significant amount of the incident light energy out of the skin.
He is also aware of the ways Instagram impacts the tattoo community and the spread of trends like sacred geometry. "Without a doubt social media has everything to do with clients — first timers in particular — having access to researching and choosing an artist," he said. "Instagram has been the single most powerful tool I've had access to for marketing as an artist all along."
Several colors of laser light (quantified by the laser wavelength) are used for tattoo removal, from visible light to near-infrared radiation. Different lasers are better for different tattoo colors. Consequently, multi-color tattoo removal almost always requires the use of two or more laser wavelengths. Tattoo removal lasers are usually identified by the lasing medium used to create the wavelength (measured in nanometers (nm)):
One of the most popular places for girls to get tattoos is around the feet and ankles. It seems less of a commitment to a life long piece of art on you because it’s less noticeable and easily concealable. The feet are also not generally considered the most beautiful part of the body, so it can be a great way of making them look prettier and adding some art to them.