Permanent makeup removal using Q‐switched Nd:YAG laser

Red‐brown tattoos are usually treated with a frequency‐doubled Q‐switched (QS) neodymium : yttrium–aluminum–garnet Nd:YAG laser (532 nm), because red and pink pigments show maximum absorption between 500 and 570 nm. Using a QS laser for red‐brown tattoo removal has sometimes led to paradoxical darkening of the tattoo pigments, and this darkened grey‐black colour may be difficult to remove. A woman with red‐brown cosmetic tattoos on her eyebrows was treated using a QS Nd:YAG laser (1064 nm) initially with low fluence and subsequently with increasing fluences at 6‐weekly intervals. After the first treatment, a slight darkening of the tattoo pigments was seen, but this faded and complete clearance was achieved after five treatments. There was no downtime during every treatment and there were no scars, pigmentary alterations or textural changes.     

Paradoxical darkening of unperceived tattoo ink after relatively low fluence from a Q‐switched Nd:YAG (1064‐nm) laser in the course of treatment for melasma

Although Q‐switched (QS) lasers are the mainstay of modern tattoo removal, paradoxical darkening of tattoo ink may occur. This darkening of tattoo ink is dependent on laser wavelength, pulse duration and fluence, with high‐energy, nanosecond‐pulsed lasers more prone to induce tattoo‐ink darkening. Laser toning, consisting of multiple‐passed QS neodymium:yttrium–aluminum–garnet (Nd:YAG), 1064‐nm laser treatment with low fluence, short pulse duration (< 10 ns), and a repetition rate of 10 Hz has been successful in the treatment of melasma. A mistake commonly made during laser toning is to scorch scalp hair, eyebrows or eyelashes, but this phenomenon is reversible. A more problematic error is caused by treatment of eyeliner or eyebrow tattoos. We report a patient who experienced changes in unperceived, skin‐coloured tattoos, turning them blue after QS Nd:YAG laser treatment of melasma.     

Tattoo removal by Q-switched Nd:YAG laser: an objective evaluation using histometry

Background: Tattoos have played an important role in various human cultures for thousands of years. The creation of high power, short pulse Q-switched lasers (QS) has provided a tool for considerable therapeutic advances in tattoo removal. Objective: The aim of the study is to correlate the clinical efficacy of QS Nd: YAG laser for tattoo removal with histological as well as histometric findings. Patients and Methods: QS Nd: YAG laser was used for blue tattoo removal in 12 Egyptian patients. Sessions were done every 2 months for about 6–10 sessions (average 7). Skin phototypes of patients ranged from phototype III to V. Photographs were taken before and after every treatment session. Skin biopsies were taken from the patients before treatment and after six sessions to perform histological and histometric analysis. Results: Eight patients (66.7%) showed excellent response and four patients (33.3%) good response. No textural change or scarring was observed in any patient. Histological examination confirmed the clinical response. Haematoxylin and Eosin (H&E) stained sections showed a significant decrease or almost complete disappearance of the tattoo pigment. Meanwhile, histometric study objectively confirmed a significant decrease in ink particle surface area after treatment. Conclusion: QS Nd: YAG laser effectively treats tattoos in dark-skinned Egyptian patients with excellent cosmetic outcome and minimal side effects. The histopathologic and histometric findings significantly correlated with the clinical response.     

Laser Removal of Tattoos

Tattoos are placed for different reasons. A technique for tattoo removal which produces selective removal of each tattoo pigment, with minimal risk of scarring, is needed. Nonspecific methods have a high incidence of scarring, textural, and pigmentary alterations compared with the use of Q-switched lasers. With new advances in Q-switched laser technology, tattoo removal can be achieved with minimal risk of scarring and permanent pigmentary alteration. There are five types of tattoos: amateur, professional, cosmetic, medicinal, and traumatic. Amateur tattoos require less treatment sessions than professional multicolored tattoos. Other factors to consider when evaluating tattoos for removal are: location, age and the skin type of the patient. Treatment should begin by obtaining a pre-operative history. Since treatment with the Q-switched lasers is painful, use of a local injection with lidocaine or topical anaesthesia cream may be used prior to laser treatment. Topical broad-spectrum antibacterial ointment is applied immediately following the procedure. Three types of lasers are currently used for tattoo removal: Q-switched ruby laser (694nm), Q-switched Nd:YAG laser (532nm, 1064nm), and Q-switched alexandrite laser (755nm). The Q-switched ruby and alexandrite lasers are useful for removing black, blue and green pigments. The Q-switched 532nm Nd:YAG laser can be used to remove red pigments and the 1064nm Nd:YAG laser is used for removal of black and blue pigments. The most common adverse effects following laser tattoo treatment with the Q-switched ruby laser include textural change, scarring, and pigmentary alteration. Transient hypopigmentation and textural changes have been reported in up to 50 and 12%, respectively, of patients treated with the Q-switched alexandrite laser. Hyperpigmentation and textural changes are infrequent adverse effects of the Q-switched Nd:YAG laser and the incidence of hypopigmentary changes is much lower than with the ruby laser. The development of localized and generalized allergic reactions is an unusual complication following tattoo removal with the Q-switched ruby and Nd:YAG lasers. Since many wavelengths are needed to treat multicolored tattoos, not one laser system can be used alone to remove all the available inks and combination of inks. While laser tattoo removal is not perfect, we have come a long way since the advent of Q-switched lasers. Current research is focusing on newer picosecond lasers, which may be more successful than the Q-switched lasers in the removal of the new vibrant tattoo inks.     

A rapid tattoo removal technique using a combination of pulsed Er:YAG and Q-Switched Nd:YAG in a split lesion protocol

Background: Tattoo removal has evolved over the years and though Q-switched laser is the ‘workhorse’ laser, it invariably requires multiple sittings, which are dependent on numerous factors, including the skin colour, location of the tattoo, age of the tattoo, colour of pigment used, associated fibrosis and the kind of tattoo treated. Though ablative lasers, both pulsed CO2 and Er:YAG, have been used for recalcitrant tattoos, very few studies have been done comparing them with pigment-specific lasers. Our study was based on the premise that ablating the epidermis overlying the tattoo pigment with Er:YAG could help in gaining better access to the pigment which would enable the Q-switched laser to work effectively with less beam scattering. Objective: A study of rapid tattoo removal (RTR) technique using a combination of pulsed Er:YAG and Q-Switched Nd:YAG in a split lesion protocol. Materials and methods: This prospective study was undertaken during 2010–13 at a laser Clinic in the Maulana Azad Medical College, New Delhi. A total of 10 patients were recruited, 5 of amateur tattoo and 5 of professional tattoo. After informed consent each tattoo was arbitrarily ‘split’ into two parts. One part was treated with QS Nd:YAG laser(1064 nm) and the other part with Er:YAG laser immediately followed by the QS Nd:YAG. The laser treatments were repeated at 6-week intervals until the tattoo pigment had cleared. On the combination side in subsequent sittings only the QS Nd:YAG was used, to minimize repetitive ablation. To ensure consistency in the intervention methods a trained dermatologist who was independent of the treatment delivery randomly rated 10% of the procedures. Results: The mean improvement achieved by the Q-switched laser (2.93) was less than the combination laser (3.85) side (p = 0.001) and needed more sessions (3.8 vs. 1.6; p = 0.001). There was a statistically significant difference in the improvement on the combination side till the second session. On the combination side patients required a maximum of 2 sessions, while the Q-switched laser required 3–5 sessions for appreciable lightening. Conclusion: From our study it was concluded that use of a pulsed ablative laser may help in rapid removal of tattoos in conjunction with QS lasers with minimal side effects and can be used as a RTR.     

The Q-switched neodymium: YAG laser and tattoos: a microscopic analysis of laser-tattoo interactions

The Nd:YAG laser effectively removes or lightens amateur and professional tattoos. The biomechanics of the removal of tattoo particles at the cellular level are incompletely understood. We examined biopsies obtained from 35 amateur and professional tattoos (including coloured tattoos), treated on three or more occassions with the Nd:YAG laser. Biopsies taken immediately after laser treatment showed vacuolation with complete clearance of tattoo particles in the most superficial layers of the dermis, as assessed by light and electron microscopy. We propose that the ‘disappearance’ of the tattoo particle arises from the formation of atomic species and gaseous products, which are rapidly dissolved in the extracellular fluid. Residual fragmented particles that are commonly found in the mid-and lower dermis are rephagocytosed. The interaction between the Nd:YAG laser and black tattoo particles at 1064nm, and red tattoo particles at 532nm, appears to be specific, as there was little evidence of thermal damage to adjacent cells or stromal collagen.     

A split-tattoo randomized Q-switched neodymium-doped yttrium–aluminium–garnet laser trial comparing the efficacy of a novel three-pass,one-session method with a conventional method in the treatment of blue/black tattoos in darker skin types

Tattoos with blue/black ink show good lightening of pigment after treatment with 1064 nm Q-switched (QS) neodymium-doped yttrium–aluminium–garnet (Nd:YAG) laser. In this randomized trial, we compared the efficacy of a novel three pass, one session procedure (R15 method) with a conventional method for treating blue/black tattoos in darker skin types. Tattoos were treated with 1064 nm QS Nd:YAG Laser with a spot size of 4 mm, fluence of 5 J/cm² and frequency of 5 Hz. The tattoo pigment lightening was comparable with both methods. Thread-like tattoos had significantly better pigment lightening with fewer side effects than the broad band-like tattoos. We would like to recommend the R15 method of the QS Nd:YAG laser for thread-like tattoos, which can save patients’ time, cut short the frequency of their hospital visits and, more importantly, decrease the cost involved in it.     

Facial scars after a road accident--combined treatment with pulsed dye laser and Q-switched Nd:YAG laser

We report the case of a woman who presented with several facial scars following a road accident. Treatment was carried out using combined laser treatment with pulsed dye laser (PDL) and Q-switched neodymium:yttrium-aluminum-garnet laser (QS Nd:YAG laser). No side effects or complications from treatment were noted or reported. The patient had very good cosmetic results with this combined technique. A variety of facial scars – erythematous, pigmented, atrophic, and hypertrophic – may occur as a result of trauma, surgery, burns, and skin disease. Surgery with other adjunctive methods including radiotherapy, intralesional steroids, and pressure therapy have shown variable results. Laser treatment has been attempted for scar revision since the 1980s. The PDL is the optimal treatment for reducing scar bulk and symptoms. It also decreases erythema and telangiectasia associated with scars, normalizes the skin surface texture, and improves the scar pliability. The QS Nd:YAG laser (1064 nm) is highly effective for traumatic tattoo removal, resulting in complete clearance in the majority of cases.     

Comparison of Q-switched Nd:YAG laser alone versus its combination with ultrapulse CO2 laser for the treatment of black tattoo

Background: Q-switched lasers are conventionally used for the treatment of black tattoo. However, they require multiple sittings, and the response may be slow due to competing epidermal pigment in dark skin. Objective: To compare the efficacy of Q-switched Nd:YAG laser alone with its combination with ultrapulse CO₂ for the removal of black tattoo. Materials and methods: Sixty patients with black tattoo were randomized into two groups viz., group A and group B. Group A was treated with QS Nd:YAG laser (1064 nm) alone, and group B received combination of ablative ultrapulse CO₂ followed by fixed-dose QS Nd:YAG laser (1064 nm), at 6-week interval for a maximum of 6 sittings. After each sitting, 3 independent physicians noted percentage of improvement that was evaluated using visual analogue scale (VAS) and grading system for tattoo ink lightening (TIL). Results: Combination laser (group B) showed statistically significant improvement in mean VAS score in the last 2 noted visits as compared to 1st session (p < 0.007, p < 0.001) and TIL mean score in last three noted visits as compared to 1st session (p < 0.008, p < 0.020, and p < 0.004). There was no statistically significant difference in the side effect profile of both the groups. Conclusion: For refractory professional tattoos, combination of ultrapulse CO₂ laser and QS Nd:YAG laser is superior to QS Nd:YAG laser alone.     

Facial scars after a road accident: Combined treatment with PDL and Q‐switched ND:YAG laser

We report the case of a woman who presented with several facial scars following a road accident. Treatment was carried out using combined laser treatment with pulsed dye laser (PDL) and the Q‐switched neodymium:yttrium‐aluminum‐garnet laser (QS Nd:YAG laser). No side effects or complications from treatment were noted or reported. The patient had very good cosmetic results with this combined technique. A variety of facial scars – erythematous, pigmented, atrophic and hypertrophic – may occur as a result of trauma, surgery, burns and skin disease. Surgery with other adjunctive methods including radiotherapy, intralesional steroids and pressure therapy has shown variable results. Laser treatment has been attempted for scar revision since the 1980s. The PDL is the optimal treatment for reducing scar bulk and symptoms. It also decreases the erythema and telangiectasia associated with scars, normalizes the skin surface texture and improves scar pliability. The QS Nd:YAG laser (1064?nm) is highly effective for traumatic tattoo removal, resulting in complete clearance in the majority of cases.     

Comparison of a single treatment with Q-switched ruby laser and Q-switched Nd:YAG laser in removing black-blue Chinese tattoos

Abstract

Background: Black and blue are two popular colors in Chinese tattooing. Two Q-switched lasers, ruby and Nd:YAG, are effective for tattoo removal. No reference with regard to a comparison of the effects and adverse reactions in Chinese individuals has been made in the literature. Objective: To compare a single treatment of black-blue tattoos with the Q-switched ruby laser and Q-switched Nd:YAG (1064 nm) laser. Methods: A total of 35 Chinese patients with black-blue tattoos at the laser center of the Institute of Dermatology, Chinese Academy of Medical Sciences were enrolled into a self-control study. Tattoos were split into two parts or two nearby tattoos on the same body part were used; one side was treated with the Q-switched ruby laser and the other with the Q-switched Nd:YAG laser. Immediate response, treatment outcome and adverse effects were compared. The statistical significance level was set at p< 0.05. Results: Edema and exudation were more common immediately after ruby laser treatment (p< 0.05). The Q-switched Nd:YAG laser had a significant difference in tattoo lightening versus the Q-switched ruby laser after a single treatment (p<0.05). There was no significant difference in adverse effects between the two lasers. Conclusion: The Q-switched Nd:YAG laser is more effective at tattoo lightening for Chinese individuals. Its immediate response after treatment is slighter than the Q-switched ruby laser.     

Q开关Nd:YAG激光治疗135例错误纹眉疗效分析

应用Q开关Nd :YAG激光治疗135例的错误纹眉。该波长激光去除黑色纹眉色素方面疗效显著 ,而且无瘢痕及毛囊损害。为要求去除错误纹眉者提供了一种好的治疗方法。     

Successful removal by ruby laser of darkened ink after ruby laser treatment of mismatched tattoos for acne scars

Cosmetic tattoos are becoming increasingly popular. Elimination of cosmetic tattoos is sought because of misplacement or migration of tattoo pigment, allergic reactions to the various pigments or dissatisfaction of the customer for various reasons. Removal of unwanted pigment is a domain of laser surgery using various Q-switched laser systems, such as the ruby, alexandrite, pulsed dye and Nd:YAG lasers. Dark colours are easily removed by these lasers, whereas red, pink and skin-toned pigment may turn black if exposed to Q-switched laser light. This ink-blackening occurs because Q-switched lasers heat up the pigments, which consist of ferric oxide, and reduce them into ferrous oxide, which is black. Laser-induced black ink is not always readily removed. A successful ruby laser-removal of laser-induced blackened cosmetic tattoos for acne scar camouflage is reported. The advantageous outcome in this case contrasts with other published cases where laser-darkened pigment had to be removed by other measures, or was permanent. Test site treatment can limit the problem to some degree but, in addition to test-treating, some kind of 'tattoo identification card' could help to prevent problems in this field and allow 'in vitro' test treatment.     

A retrospective analysis of the influencing factors and complications of Q-switched lasers in tattoo removal in China

Background and objective: Q-switched (QS) lasers are the gold standard for tattoo removal. The purpose of the present study was to gain a more comprehensive understanding of the factors that influence the efficacy of QS lasers and their associated complications in the removal of tattoos in China. Patients and methods: Clinical data of 266 patients were analyzed retrospectively. The tattoo clearance rate was evaluated using the 4-point scale. The Cox regression model was applied to analyze the factors that affected the efficacy of QS lasers in tattoo removal. In addition, treatment-related adverse reactions were analyzed. Results: The results showed that several variables had a statistically significant effect (p < 0.05) on the efficacy of QS laser-mediated tattoo removal treatment, including the patients’ age, the tattoo’s age, type, color, or ink density and the number of treatments. A variety of adverse responses occurred during the laser treatment. The overall incidence of adverse responses was approximately 24.06%, including pigmentation, hypopigmentation, bulla formation, allergic reactions, and skin texture changes or hypertrophic scarring. Conclusion: Some factors may influence the efficacy of QS lasers in the treatment of tattoos and certain adverse reactions may occur during this process.     

Q开关Nd:YAG激光治疗色素增加及血管增生等皮肤病的疗效分析

目的：观察Q开关Nd:YAG激光治疗色素增加及血管增生等皮肤病的临床疗效与治愈次数，以及影响疗效的有关因素。方法：用Q开关Nd:YAG激光（1064nm,532nm或585nm波长）治疗3977例色素啬及血管增生等皮肤病，观察，分析其疗效和美容效果。结果：Q形状d:YAG激光治疗色素增加及血管增生等皮肤病均有效，其中雀斑、美容文刺、文身和太田闱总有效率均达95％以上，痊愈率由高到低依次为：雀斑、美容文刺、面部色素恙、雀斑样痣、老年斑、文身、颧部褐青色痣、咖啡斑、外伤性文身、炎症后色素沉着、多毛症、太田痣、毛细血管扩张、蜘蛛痣、蓝痣、鲜红斑痣和毛表皮痣。治愈次数1－9次。结论：Q开关Nd:YAG激光治疗色素增加皮肤病的疗效及美容效果很好，而对多毛症和血管增生皮肤病疗效及美容效果相对较差。     

Entfernung von Tätowierungen mit dem gütegeschalteten Rubinlaser (694 nm) und dem gütegeschalteten Nd:YAG-Laser (532 und 1064 nm) Eine Retrospektivstudie

In a retrospective study 47 patients with 68 amateur and 25 professional tattoos were examined, considering clearance of tattoo pigments and the frequency of side effects after finished treatments with the Q-switched ruby (694 nm) and the Q-switched Nd:YAG laser (532 and 1064 nm). Black amateur tattoos were found to lighten faster than professional tattoos (13.2 and 18.6 treatments respectively). For the clearance of multicolored tattoos (amateur or professional), similar numbers of laser treatments were needed. Green pigments were removed with the Q-switched ruby laser and red pigments with the frequency-doubled Nd:YAG laser (532 nm). Compared to the Q-switched Nd:YAG laser (1064 nm), the Q-switched ruby laser and the frequency-doubled Nd:YAG laser (532 nm) more often caused blistering and transient hypopigmentation (5.4% and 7.5% vs. 1.1% (blisters); 8.6% and 15.1% vs. 4.3% (hypopigmentation).     

Combined pulsed dye laser and Q‐switched Nd:YAG laser intraumatic facial tattoo removal: A case series

Traumatic tattoos can be treated with several methods, including mechanical and chemical devices. However, they are rarely used due to the high risk of permanent side effects such as scarring and depigmentation. Recently, laser devices, especially the Q‐switched (QS) laser and the pulsed dye laser (PDL), applied in combination, have achieved complete clearance of the lesions without any risk of side effects. Herein, we reported three cases of traumatic facial tattoos successfully treated with combined PDL and QS Nd:YAG laser.     

Red ink tattoo reactions: successful treatment with the Q-switched 532 nm Nd:YAG laser

BACKGROUND: In the South-west Thames region there were an unprecedented number of lichenoid tattoo reactions to red ink in patients who had visited a local tattoo parlour. The red ink was found to contain mercuric sulphide, a compound known to cause allergic reactions. Topical Dermovate (clobetasol propionate 0.05%, GlaxoWellcome) ointment alone had little impact. OBJECTIVES: To investigate whether the Q-switched 532 nm Nd:YAG laser could produce permanent flattening of the reaction. METHODS: This was an open nonrandomized clinical trial. Biopsies were taken from the lichenoid areas within the tattoos. Subjects were patch tested to 1% ammoniated mercury in petrolatum prior to treatment with the Q-switched 532 nm Nd:YAG laser. Laser treatments were delivered at 6-weekly intervals by a single operator. Patients also applied topical Dermovate between treatments. Therapy was discontinued when the lesions flattened. Clinical photographs were assessed at baseline and prior to each laser treatment. RESULTS: Seven patients with Fitzpatrick skin types I-III were enrolled in the study (four females, three males, mean age 39 years). All patients completed the trial. Patch testing to mercury was universally negative at 48 and 96 h. Substantial flattening and depigmentation of the red ink within the tattoos was noted after six laser treatments. No adverse effects were recorded. CONCLUSIONS: The Q-switched 532 nm Nd:YAG laser in combination with topical Dermovate ointment is a safe and effective method of treating red ink tattoo reactions.     

Evaluation of the Nd/YAG laser for treatment of amateur and professional tattoos

Summary Two hundred and twenty-one amateur tattoos and 27 professional tattoos were treated with a Nd/YAG laser (X 1064nm and 532nm). The response was expressed as the percentage area cleared of tattoo. Seventy-nine per cent of amateur black tattoos were 75% clear after one to five treatments (mean 2) at 1064 nm. The response of professional tattoos was slower and less complete. Seventyfour per cent of black professional tattoos were 75% clear after one to 11 treatments (mean 6·3) at 1064nm. Red tattoos responded well to 532 nm and were 75% clear after one to five treatments. Yellow, orange blue and green tattoos were resistant to treatment. Side-effects included minor scarring in 1·2% of tattoos and transient pigmentary changes in 77% of patients.     

Tattoo ink darkening of a yellow tattoo after Q-switched laser treatment

The popularity of tattoos is burgeoning with 20-30 million tattooed individuals in the Western World. Requests for removal can be expected to rise concurrently with increased applications. Laser removal of tattoos is potentially a more cosmetically acceptable method of removing tattoos than surgical excision or dermabrasion. Nevertheless, complications and side-effects can result from laser treatment and include scarring, hypopigmentation, hyperpigmentation, partial removal, infection, bleeding and tattoo ink darkening. The latter has been reported for flesh-toned and red tattoos. Such a complication has never been reported for the laser treatment of a yellow tattoo in the dermatological literature. We describe a case of tattoo ink darkening of a yellow tattoo after treatment with the 532 nm quality-switched Neodymium : Ytrrium-Aluminium Garnet laser to highlight clinicopathological features. The mechanism by which some tattoos darken after laser treatment is not clearly understood. We review darkening of tattoos after laser treatment to raise awareness of this important complication. This paper will help to facilitate discussions with the patient and in obtaining informed consent prior to commencing treatment. Tattoo ink darkening of a yellow tattoo adds to the growing list of complications resulting from attempts at tattoo removal.