Generalized Chrysiasis Improved with Pulsed Dye Laser

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Light microscopy typically demonstrates aggregates of gold in the papillary and reticular dermis in a perivascular distribution.Gold deposits are often found within macrophages and endothelial cells, but extracellular granules may also be seen. 6On fluorescent microscopy, gold particles display orange-red birefringence. 7Electron microscopy shows faceted electron-dense particles within macrophage vesicles and endothelial cell lysosomes known as aurosomes. 8Patients with chrysiasis also have higher concentrations of melanin in the epidermis and dermis of involved skin.Gold deposits in the dermis may enhance melanogenesis by indirectly increasing tyrosinase activity.Ultraviolet light may induce hyperpigmentation 3 or stimulate preferential uptake of gold by the skin. 5man leukocyte antigens may also play a factor in the development of chrysiasis.The B27 antigen was associated with chrysiasis, and the DR7 antigen had a protective effect against gold toxicity. 9 The discoloration associated with chrysiasis can be disfiguring for patients, and treatment is difficult.We present the first case to our knowledge of extensive intense chrysiasis treated with a pulsed dye laser.

Case Report
A 66-year-old Caucasian woman veteran was diagnosed with rheumatoid arthritis in 1977.She received Solganal gold salts 100mg every week for rheumatoid arthritis between 1979 and 1981 and between 1983 and 1993.Her cumulative elemental gold dose was 33.8g.
In 1983, the patient began to develop chrysiasis manifested by pronounced gray pigmentation, most notable on the face, neck, trunk, and arms.This discoloration severely and adversely affected her daily life.She constantly wore thick makeup to cover the gray color of her skin, yet she still endured stares and comments regarding her skin tone.In 2006, she sought treatment at the Beckman Laser Institute at the University of California, Irvine.
Biopsy of the left shoulder, in an area not treated with any lasers, showed exogenous pigment in the superficial dermis and within macrophages down to a depth of 2.5 mm (Figure 1).Reflectance spectroscopic measurements were performed using a handheld spectrometer (2,600-D, Konica, Minolta, Tokyo, Japan) with a wavelength range of 360 to 740 nm.Unfortunately, no focal peaks of absorption were noted, only absorption over a wide range.Color measurements were performed using a CR-400 (Konica, Minolta, Tokyo, Japan) calibrated at standard illuminant D65 (representing daylight).Color values were expressed in the CIELAB (CIE 1967, Commission International d'Eclairage) as three values in the L*, a*, and b* space, where L* expresses the overall lightness (0-100, for black to white), a* represents balance between green and red (negative and positive values, respectively), and b* expresses the balance between blue and yellow.Measurements were taken at the same sites for all visits to minimize effect of spatial skin color inhomogeneities.Clear differences were demonstrated between measurements in this patient's skin and those expected for someone with her skin type (Table 1).
In February 2006, test spots were performed on the left shoulder with the GentleLase (Candela Corporation, Wayland, MA) 755-nm laser (10-mm spot size, 3-ms pulse duration).Four test spots with radiant exposures between 25 and 35 J/cm 2 were performed.In March 2006, radiant exposures up to 50 J/cm 2 were used.Cryogen spray cooling settings for all test spots were 50 ms of cryogen with a 30-ms delay.Test spots on the left shoulder initially revealed no improvement, and there was no improvement at 6 months.Test spots on the arm were also performed using a pulsed dye laser (595 nm; 7 mm; 3 ms pulse duration; 6-14 J/cm 2 ) 30 ms of cryogen with a 20-ms delay, but again no response was noted, even on follow-up 16 months later.
In March 2006, the patient also requested treatment of facial telangiectases and was cautiously treated using a 595 nm pulsed dye laser (VBeam initially and later Perfecta; Candela Corporation).A small area of the face was treated first using a 7-mm spot size, 3ms pulse duration, and radiant exposure starting at 8.5 J/cm 2 and slowly moving up to 10 J/cm 2 .
It was hoped that the chrysiasis might also improve, because absorption at this wavelength had been demonstrated, and pigmentation was darkest on the face because of sun exposure (presumably increased chromophore for better absorption).After a 6-week observation period, no adverse effects were noted, and there was slight improvement in the gray discoloration.The patient was pleased and underwent nine full-face treatments for chrysiasis at 4-to 8-week intervals.After the first two treatments, the neck and décolletage area was added.
Clinically, she has demonstrated improvement in her chrysiasis and telangiectases 13 months after the first treatment to the face (Figure 2A, B).Treatment was continued primarily to improve the chrysiasis, but serial chromometer and spectrophotometer measurements have not demonstrated clear differences.
To our surprise, although there was no improvement of the 755-nm left shoulder test spots noted at 6-month follow-up, there was lightening clearly evident at a 16-month follow-up visit (Figure 3).The patient had been followed at monthly intervals, and improvement had not been previously noted, but after the 6-month follow-up visit, the arm test sites were not routinely checked.Spectrum analysis demonstrates differences between these test sites and untreated areas (Figure 4).

Discussion
In this case report, we describe the first reported treatment of extensive intense chrysiasis.
Argyria can be successfully treated using Q-switched lasers, but use of these devices on patients who have received gold salts may result in immediate tissue discoloration. 1,10,11Qswitched lasers may alter physiochemical properties in dermal gold, 10 with electron microscopy studies having demonstrated a decrease in particle size and loss of the characteristic faceted appearance (thought to signify a change from crystalline to elemental gold).More numerous, smaller gold particles may amplify optical scattering of visible light in the dermis. 10un and colleagues 1 suggested the use of millisecond lasers between 550 and 850 nm for treatment of laser-induced chrysiasis.We have demonstrated that these wavelengths may also have utility for treating more extensive chrysiasis, although our patient required significantly more than the two treatments reported in the Yun and colleagues paper.This may be because of long-term recurrent sun exposure over time and the large amount of gold administered to this patient.Despite the need for many treatments, the pulsed dye laser is a reasonable option because there are few other available treatment modalities.Sun avoidance and protection to minimize ultraviolet-induced exacerbation is also important.
Although there was a slight lightening trend (increased L* value) in the treated areas with respect to the untreated areas, changes in chromometer measurements were significantly less than improvement noted clinically.This difference is difficult to explain.It is possible that we created a fine scar that was not perceptible to the eye but increased scattering and decreased the gray appearance of the patient's skin.Such changes might be similar to those observed with laser skin resurfacing.The average person would not develop a scar from a pulsed dye laser at these settings, but chrysiasis alterations may result in an unusual response.Alternatively, the chromometer may not have been sensitive enough to detect small changes.
Improvement in the 755-nm test spots 18 months after treatment was surprising.All test spots appeared the same despite the different fluence used.Comparison between treated and untreated skin spectra indicated that reflectance had increased approximately 2% over the entire measured wavelength range.Again, the observed changes would be consistent with fine, clinically imperceptible scarring.
In conclusion, we report the first case of extensive intense chrysiasis improved using a 595nm pulsed dye laser.The patient reported that treatment profoundly improved her quality of life, eliminating the need for makeup and easing social interactions.Eighteen-month postintervention spectrum analysis of 755-nm laser treatment sites compared with untreated areas.Reflectance went up by an average of 2%.

Figure 1 .
Figure 1.Biopsy of left shoulder (hematoxylin and eosin, ×40) shows exogenous pigment in the superficial dermis and within macrophages.

Figure 2 .
Figure 2.(A) Before and (B) 13 months after nine treatments with the pulsed dye laser.Improvement in chrysiasis and telangiectases can be seen.

Figure 3 .
Figure 3.Lightening of left shoulder test spots noted 16 months after treatment with 755-nm laser.

TABLE 1
Comparison of L*, a*, b* Values for the Presented Chrysiasis Patient Compared with Normal Subject with Similar Skin Type

Chrysiasis Normal Skin (Estimated for Her Skin Type (Type I)
Dermatol Surg.Author manuscript; available in PMC 2014 August 18.