I regret having a tattoo, and I often want to get rid of it. Even when applied for Tattoo Removal Training by professionals, tattoo removal technology remains rather ineffective despite advancements over the years. In addition to its 90% success rate, the current laser tattoo removal method frequently causes a host of issues for individuals with varying skin kinds and tones. In our Advanced Aesthetic courses in Lasers, we go into great detail on the advantages and applications of lasers for various objectives in aesthetic medicine. However, we will discuss the topic of laser tattoo removal in today’s post, and we’ll let you know about two significant issues with the Q-Switch and Pico In addition to discussing lasers used in tattoo removal, this article will briefly discuss more sophisticated laser therapy technologies that have been created specifically to solve many of the major drawbacks of the currently used Q-Switch and Pico laser technologies.
Issues with the way laser tattoo removal is currently done
There are two key reasons why the Q-Switched Laser, which is now the most popular laser tattoo removal method utilized by aesthetic practitioners, is incredibly inefficient. The strong heat produced when the laser interacts with the skin’s ink is the first issue that occurs from this laser tattoo removal procedure. This produces an instantaneous eruption of steam vacuoles immediately above the macrophages and below the skin’s surface, where the customers’ skin is evident as boils and blisters. By serving as an extra barrier, these vacuoles stop the laser energy from getting to the ink. The deeper vacuoles beneath the skin’s surface remain long after the surface vacuoles disappear, usually within an hour or longer. lasting days, therefore more laser passes during the same treatment session don’t really make a difference. As a result, patients usually need to wait 6–8 weeks for their skin to heal and for the vacuoles to spontaneously disappear. Second, there’s a chance of developing hypopigmentation, which is when the skin treated with a laser tattoo removal procedure becomes lighter than the surrounding skin, or hyperpigmentation, which is when the treated area becomes darker than the surrounding skin. On the technological front, there is, however, positive news. Numerous technological advancements have solved the problems associated with laser-based tattoo removal, including those listed above and more!
Innovative technology that improves the removal of tattoos
The following cutting-edge laser technologies are gradually taking the place of the prevalent tattoo removal methods. But before moving further, it’s important to realize that using lasers requires both theoretical understanding and appropriate clinical expertise.
The PFD Attachment
One of the many innovations in the tattoo removal process is the Describe PFD patch (Merz), a silicone patch loaded with perfluorodecalin (PFD). “It minimizes the epidermal whitening effect, which allows you to do multiple treatments during the same session as opposed to only being able to make one pass and be done,” stated Brian S. Biesman, M.D., an oculoplastic surgeon in Nashville, Tenn., who assisted in the development of the PFD patch and conducted pilot and pivotal studies on the device. You may use the laser to do three or four passes in five minutes instead of just one, Dr. Biesman told Dermatology Times. Moreover, it permits more profound light penetration into the tissue. moreover, it serves as a heat sink to shield the epidermis.
Hydrogel Adhesion Technique
Patients with skin types IV through VI can use hydrogel dressings to reduce pigmentation following laser tattoo removal. A precooled, transparent dressing that is non-stick and put directly over the tattoo before to laser therapy is used in this procedure. Since hydrogel dressings are simple to use and widely accepted, they may be utilized in an attempt to prevent an excessively rapid response that might result in depigmentation. Reducing tissue splatter caused by the laser and improving patient comfort due to the cooling effect are two more advantages of the technique, according to prominent educational institutions like the award-winning Aesthetic Academy Asia in Malaysia, which employs a team of highly qualified medical professionals and academicians with scientific excellence in Advanced Aesthetic courses in Lasers.
System for Rapid Acoustic Pulse (RAP)
Conventional laser removal methods split apart tattoo ink particles that are grouped under the skin using a laser beam. The body’s macrophages progressively remove the broken-off individual particles by phagocytosis. Because the laser only eliminates the top layer of particles from each aggregation, many sessions are necessary. As the particles released from the top of each cluster wind up covering the remainder of the agglomeration from the laser beam, it is not possible to remove more than that in a single session. Furthermore, as a consequence of the treatment, small steam-filled vacuoles (sacs) grow over the agglomerations, blocking the laser.
These restrictions can be partially addressed by the Rapid Acoustic Pulse (RAP) technology. The portable Rapid Acoustic Pulse (RAP) device is used to deliver acoustic pulses through the skin right after the first laser pass. As a result, the ink particles scatter and the vacuoles are eliminated. Consequently, several laser passes may be completed in a single session and in a matter of minutes.It might be argued that appropriate laser training and courses are vital to perform the treatment correctly and under the right circumstances to prevent catastrophic adverse effects.