Healthy Skin Association

Tattoo Removal Cost and the method used for the procedure are possibly the two greatest obstacles faced once the decision has been made to remove a tattoo. Tattoo Removal has never been a fun project, but when you inject tattoo removal cost into the mix the prospect becomes even less appealing.

Up until the last 20 years or so the methods were fairly limited and results could be less than desirable. Since we are living in the 21^st Century lets concentrate on the tattoo removal cost of the methods available today.

Read entire article:  Tattoo Removal Cost

As a tattoo removal agent Trichloroacetic Acid, commonly abbreviated as TCA (TCA tattoo removal) , has been successfully tested in two medical studies and mentioned in a third study which we could not confirm.

The first known medical study performed to test the efficacy of TCA as a tattoo removal agent was the six year study from1979 through 1984 by two British Plastic Surgeons, Dr T. A. Piggot and R.W. Norris of the Department of Plastic Surgery, Newcastle General Hospital, Newcastle, England.

The Piggot/Norris medical study was inspired by the 1972 published report of a 4 year study by Surgeon Captain R.W.B. Scutt, Dermatologist, F.R.C.P (Fellowship of the Royal College of Physicians) concerning the incident of tattoo regret among the tattooed population of sailors in the Royal Navy between 1963 and 1966. The percentage of tattoo regret among the study group was as high as 70% by the time they were married. At the time, it was discovered that about 500 sailors were acquiring hand tattoos and about 4,000 sailors were acquiring forearm tattoos annually. This eventually led to the discouragement of tattoos on young recruits entering Naval training beginning in the late 1960’s and eventually the British Parliament passing a Bill against the tattooing of minors in 1969. Continued at TCA Tattoo Removal…

We’re  alerting everyone  to an upcoming report on TCA as a tattoo removal product. There is no perfect tattoo removal product on the market. Laser  gets better press than it sometimes deserves. It can burn, leave scars and fail to remove some of the lighter pigment colors at an extremely high price. IPL is a form of light used to remove tattoos, but it also has its drawbacks.

Our upcoming report on TCA tattoo removal will be very revealing and of major interest to those currently considering the removal of a tattoo.

Stay  tuned, you won’t be disappointed.

Tattoo Inks Are An Unknown Quantity

Tattoo ink manufacturers are not required by law to list their ingredients. Many tattoo artists mix their own formulas and consider their mixtures “trade secrets”. These tattoo inks are actually pigments suspended in a variety of carrier solutions. Some are made from ABS plastic for the vibrancy of the colors, some are vegetable dyes, but the vast majority are made from metal salts. The main concern with the pigments is what is in them besides the carrier solutions and the dyes.

Tattoo shops that do not adhere to strict safety precautions may be exposing their customers to a wide variety of infections as the artist dips the needle in an infected person and then back into the ink container, then into a new customer’s skin. Fortunately most shops are aware of these dangers and take all precautions established by local and state health departments.

Pigment Toxicity

Some pigments can cause an allergic reaction between the ink and skin. If available, look at a MSDS sheet to determine what the possible reactions might be. The reactions can result in photo sensitivity of the tattoo to natural and artificial light or even scarring. The glow in the dark inks, or those that react to black light, can be harmless, radioactive or toxic. The ABS plastic based pigments can prove very difficult to remove should the client choose to have the tattoo removed at a later date. Most inks pose no threat or visible reaction to the skin, but the lack of regulations make some inks risky, be sure to use a reputable artist who will not mind explaining the components of the ink used in your tattoo.

Pigment Carriers

The job of the carrier is to keep the pigment from clumping and in a fluid consistency, inhibit contamination and ease the injection of the ink into the skin. The safest and most common carriers are ethyl alcohol, glycerin, purified water, propylene glycol, witch hazel, and listerine. In the “old days” it was not uncommon to use various forms of alcohol, usually denatured, and other toxic liquids, chemicals or contaminated water.

Tattoo Pigment Being Injected into the Dermis

• BLACK: made of iron oxides, carbon, or logwood. “Natural black pigment is made from magnetite crystals, powdered jet, wustite, bone black,and amorphous carbon from combustion (soot). Black pigment is commonly made into India ink. Logwood is a heartwood extract from Haematoxylon campechisnum, found in Central America and the West Indies.”

• BROWNS: made of ochre. “Ochre is composed of iron (ferric) oxides mixed with clay. Raw ochre is yellowish. When dehydrated through heating, ochre changes to a reddish color.”

• RED: made of cinnabar, cadmium red, iron oxide, or napthol. “Iron oxide is also known as common rust. Cinnabar and cadmium pigments are highly toxic. Napthol reds are synthesized from Naptha. Fewer reactions have been reported with naphthol red than the other pigments, but all reds carry risks of allergic or other reactions.”

• ORANGE: made of disazodiarylide, disazopyrazolone, or cadmium seleno-sulfide. “The organics are formed from the condensation of 2 monoazo pigment molecules. They are large molecules with good thermal stability and colorfastness.”

• YELLOW: made of cadmium yellow, ochres, curcuma yellow, chrome yellow, or disazodiarylide. “Curcuma is derived from plants of the ginger family; aka tumeric or curcurmin. Reactions are commonly associated with yellow pigments, in part because more pigment is needed to achieve a bright color.”

• GREEN: made of chromium oxide (“Casalis Green” or “Anadomis Green”), Malachite, Ferrocyanides, Ferricyanides, Lead chromate, Monoazo pigment, Cu/Al phthalocyanine, or Cu phthalocyanine. “The greens often include admixtures, such as potassium ferrocyanide (yellow or red) and ferric ferrocyanide (Prussian Blue).”

• BLUE: made of azure blue, cobalt blue, or Cu-phtalocyanine. “Blue pigments from minerals include copper (II) carbonate (azurite), sodium aluminum silicate (lapis lazuli), calcium copper silicate (Egyptian Blue), other cobalt aluminum oxides and chromium oxides. The safest blues and greens are copper salts, such as copper pthalocyanine. Copper pthalocyanine pigments have FDA approval for use in infant furniture and toys and contact lenses. The copper-based pigments are considerably safer or more stable than cobalt or ultramarine pigments.”

• VIOLET: made of manganese violet (manganese ammonium pyrophosphate), quinacridone, dioxazine/carbazole, and various aluminum salts. “Some of the purples, especially the bright magentas, are photoreactive and lose their color after prolonged exposure to light. Dioxazine and carbazole result in the most stable purple pigments.”

• WHITE: made of lead white (lead carbonate), titanium dioxide, barium sulfate, or zinc oxide. “Some white pigments are derived from anatase or rutile. White pigment may be used alone or to dilute the intensity of other pigments. Titanium oxides are one of the least reactive white pigments.”

Tattoo Science

Electric tattoo guns create  thousands of puncture wounds in the skin so that the tattoo pigment can be injected to form the tattoo. The ink particles are effectively trapped by a network of connective tissue in the fibroblasts, a type of cell found in connective tissue that produces fibers such as collagen. It is not known for sure, but fibroblasts may last the lifespan of the individual receiving the tattoo.

This entire process causes damage to the epidermis and the dermis and become blended together as a result of the pulverization of the junction of the two layers. The body responds by bleeding up through the skin as a result of the severed capillaries. The immune system responds by swelling to shut down the blood flow.  The immune response cells then begin cleaning up by flushing the ink through the lymph system. At first the ink is dispersed in the upper areas of the skin, but within 1 to 2 weeks it gathers into a more concentrated area as new tissue begins to form around the ink and traps it in the dermal fibroblasts. After a month the two layers of skin have reformed to trap the ink and within 3 months the tattoo ink is completely surrounded by connective tissue that holds the ink in place, although over time it will begin to subside deeper into the dermis, or second layer of skin. By the time the tattoo pigment has combined with the dermal fibroblasts it is highly unlikely a simple tattoo removal cream could ever remove the tattoo ink.

Final Thought

What all this means is be sure to think long and hard before getting a tattoo. Find out who runs the cleanest shop in the area and make sure the design is something you are willing to live with for the rest of your life.

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