PMU & Tattooentfernung


21:49
Reverse - the first integrated system for pigment extraction

Reverse - the first integrated system for pigment extraction

Our line consists of products developed by Belgian Pharmaceutical Laboratory. For several years, our team of researchers have been collecting clinical and theoretical data to create a comprehensive approach in removing unwanted pigment from the skin. Chemical tattoo removing solutions that exist on the market today are mainly focused on the procedure of extracting the pigment from the skin. In contrast, Reverse products are complexes that offer not only effective pigment removal, but also a well-studied post-procedural care that assures good skin rehabilitation and pigment destabilisation during recovery time between sessions.

We are a group of independent researchers based in the Belgian province of Limburg. Our research interest in tattoo pigment extraction arose when we discovered the high demand for the tattoo removal service contrasted by a low number of scientific studies on the technique and its effectiveness. Our team has been collaborating with local tattoo artists and beauty clinics to collect and analyze clinical data. Experimental studies have allowed us to create a comprehensive approach to removing unwanted pigment from the skin using an alkaline solution. Additionally, our team has created a complex, well-studied post-procedural skin treatment which complements the treatment and minimizes the appearance of side effects.There are a lot of misconceptions about the method of chemical tissue destruction for pigment removal. We train our distributors to be able to deliver complete and honest information to practicing technicians, as we believe that it is essential to know skin regeneration properties and understand how chemical solutions with high pH interact with human skin. Our goal is to preserve our customers’ health and make the technician’s practice safe. We are actively working to debunk myths created for the purpose of marketing, and our product comes with a free theoretical course and comprehensive procedure manual.

There are a lot of myths created about tattoo removal chemical solutions for the purpose of marketing. A common misconception is the alleged reaction of tattoo removing solutions with molecules of the pigments. Acids and alkalis react with inorganic compounds. In a laboratory setting, certain binding and substitution reactions can be observed at specific temperatures. However, it is impossible to guarantee that such reactions occur in an aqueous environment, such as our skin. In addition, the composition of pigments is not limited to one or two ingredients. In chemistry, there is no substance that can perform a universally predictable reaction with the entire list of pigments used in tattoo dyes. It is important to understand that the basic requirements and characteristics of organic pigments are photo-resistance, resistance to solvents (water, alcohol, acid, alkali), thermal-resistance, and chemical resistance. Therefore, when using chemical solutions to remove particles of these pigments from the skin, we do not rely on chemical reactions. The key to success lays in the biological process of skin regeneration: namely in scab formation, phagocytosis, and tissue remodeling.

Unfortunately, an effective method of chemical tissue destruction for tattoo lightening cannot be non-traumatic. The more aggressive the impact, the larger the scab, the convergence of which carries away the pigment located in the upper layers of the skin. The stronger the inflammation caused by the removing solution, the higher is the activity of phagocytes. The function of immune cells helps in the elimination of smaller particles of pigments through the lymphatic system. In the process of healing (remodeling), fibroblasts produce new collagen fibers. It is possible that the pigment particles entering the shells of these mobile cells will: a) be displaced into the deeper layers of the dermis and become less visible due to the superstructure of collagen and elastin fibers; b) be shifted towards the upper dermal and epidermal layers of the skin and become available for elimination with a scab in the next session.

Exposing the skin to chemical solutions requires profound knowledge of biological regenerative processes. The correct procedural protocol must be followed, and aftercare and UV exposure precautions must be taken to avoid negative effects during chemical tattoo removing sessions.

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