			Home About us Contact

Alexandrite Laser (alexandrite + laser)

Distribution by Scientific Domains

Medical Sciences	100%

Kinds of Alexandrite Laser

Q-switch alexandrite laser

Selected Abstracts

Minocycline-Induced Hyperpigmentation Treated with a 755-nm Q-Switched Alexandrite Laser

DERMATOLOGIC SURGERY, Issue 9 2004
Tina S. Alster MD
Background. Cutaneous pigmentation associated with minocycline therapy is an unusual adverse effect for which few successful treatments have been described. The pigment changes may persist for years, despite cessation of therapy, and is often cosmetically disfiguring, causing significant embarrassment and psychological depression in those affected. Few safe and effective treatments have been described in the past; however, recent pigment-specific laser technology has shown promise in the treatment of this condition. Objective. The objective was to describe a series of patients with minocycline-induced hyperpigmentation who were successfully treated with a 755-nm Q-switched alexandrite laser. Methods. Six patients with minocycline-induced hyperpigmentation on the face or legs were treated with a Q-switched alexandrite laser on a bimonthly basis until pigmentation was eradicated. Results. Cutaneous pigmentation resolved completely in all patients in an average of four laser sessions. Side effects were limited to transient purpura and mild desquamation without scarring or dyspigmentation. Conclusion. Minocycline-induced cutaneous pigmentation can be effectively cleared without risk of adverse sequelae by Q-switched alexandrite (755-nm) laser irradiation. [source]

Effect of Wax Epilation Before Hair Removal With a Long-Pulsed Alexandrite Laser: A Pilot Study

DERMATOLOGIC SURGERY, Issue 2 2003
Michael S. Lehrer MD
Background. Recent reports indicate that laser hair removal is most effective on anagen hairs. However, no published trials have examined laser epilation after hair cycle synchronization. Objective. To evaluate the potential for enhanced laser hair removal after the induction of telogen hairs into anagen by wax epilation. Methods. We identified four 2.5-cm square areas with equivalent hair length and density on the backs of 13 dark-haired white men. To induce typically telogen hairs into anagen, two areas on each patient were wax epilated. Two weeks later, one waxed area and one unwaxed area were treated with a long-pulsed alexandrite laser. One month after laser treatment, a subjective comparison was made based on hair density, length, and thickness. Results. In 12 of 13 patients, lasered areas that had been pretreated with wax epilation were clearer of hair as compared with areas that had been pretreated by shaving (P=0.0034). No significant difference was noted between waxed and unwaxed control areas that had not been laser treated (P=1.0). Conclusion. Wax epilation 2 weeks before laser hair removal improves cosmetic outcomes at 1 month. This effect may be secondary to the recruitment and heightened sensitivity of early anagen hairs. [source]

Combined Ultrapulse CO2 Laser and Q-Switched Alexandrite Laser Compared with Q-Switched Alexandrite Laser Alone for Refractory Melasma: Split-Face Design

DERMATOLOGIC SURGERY, Issue 1 2003
Suhattaya Angsuwarangsee MD
Background. Melasma is common and can cause major psychological impact. To date, the mainstay of treatment, including various hypopigmenting agents and chemical peels, is ineffective and can cause adverse effects. Laser is a new approach and is yet to be explored for its efficacy and safety. Objective. To compare combined Ultrapulse CO2 laser and Q-switched alexandrite laser (QSAL) with QSAL alone in the treatment of refractory melasma. Methods. Six Thai females were treated with combined Ultrapulse CO2 laser and QSAL on one side of the face and QSAL alone on the other side. The outcome was evaluated periodically for up to 6 months using the modified Melasma Area and Severity Index score and the modified Melasma Area and Melanin Index score. Results. The side with combination treatment had a statistically significant reduction of both scores. On the QSAL side, the score reduction was not significant. Two cases developed severe postinflammatory hyperpigmentation and were effectively treated with bleaching agents. Transient hypopigmentation and contact dermatitis were observed with the combination treatment side. Conclusions. Combined Ultrapulse CO2 laser and QSAL showed a better result than QSAL alone but was associated with more frequent adverse effects. Long-term follow-up and a larger number of cases are required to determine its efficacy and safety for refractory melasma. [source]

Laser Hair Removal: Long-Term Results with a 755 nm Alexandrite Laser

DERMATOLOGIC SURGERY, Issue 11 2001
Sorin Eremia MD
Background. Hypertrichosis is a common problem for which laser hair removal is becoming the treatment of choice. Optimal wavelength, pulse duration, spot size, fluence, and skin cooling parameters for various skin types have not yet been firmly established. Objective. To evaluate the long-term efficacy and safety of a 3-msec 755 nm alexandrite laser equipped with a cryogen cooling device for patients with Fitzpatrick skin types I,V. Methods. Eighty-nine untanned patients with skin types I,V underwent a total of 492 treatments of laser hair removal over a 15-month period. Each patient in the study underwent a minimum of three treatment sessions spaced 4,6 weeks apart (mean treatments 5.6). Retrospective chart review and patient interviews were used to establish hair reduction results. Treatment sites included the axillae, bikini, extremities, face, and trunk. A 3-msec pulse width, 755 nm alexandrite laser equipped with a cryogen spray cooling device was used in this study. Spot sizes of 10,15 mm were used. A spot size of 10 mm was used for fluences greater than 40 J/cm2, a spot size of 12 mm was used for fluences of 35,40 J/cm2, and spot sizes of 12 and 15 mm were used for fluences less than 30 J/cm2. Fluences ranging from 20 to 50 J/cm2 (mean fluence 36 J/cm2) were used. Results. The patients had a mean 74% hair reduction. Skin type I patients had an average of 78.5% hair reduction using a mean fluence of 40 J/cm2 (35,50 J/cm2) and a 10,12 mm spot size (12 mm in more than 95% of treatments). Skin type II patients had a mean 74.3% hair reduction using a mean fluence of 38 J/cm2 (30,40 J/cm2) and a 12,15 mm spot size. Skin type III patients had a mean 73.4% hair reduction using a mean fluence of 37 J/cm2 (25,40 J/cm2) and a 12,15 mm spot size. Skin type IV patients had a mean 71.0% hair reduction using a mean fluence of 31 J/cm2 (25,35 J/cm2) and a 12,15 mm spot size. A patient with skin type V had a 60% hair reduction using a mean fluence of 23 J/cm2 (20,25 J/cm2) and a 12,15 mm spot size. The efficiency of hair removal directly correlates significantly with the fluence used. Rare side effects included transient postinflammatory hyperpigmentation (n = 9; 10%), burn with blisters (n = 1; 1%), and postinflammatory hypopigmentation (n = 2; 2%). All complications resolved without permanent scarring. Conclusion. The 3-msec cryogen cooling-equipped alexandrite laser can safely and effectively achieve long-term hair removal in patients with skin types I,V. The best results are achieved in untanned patients with skin types I,IV. [source]

Treatment of Widespread Segmental Nevus Spilus by Q-Switched Alexandrite Laser (755 nm, 100 nsec)

DERMATOLOGIC SURGERY, Issue 9 2001
G.A. Moreno-Arias MD
Background. Widespread unilateral nevus spilus causes important cosmetic and psychological disturbances, and only a few therapeutic options can guarantee good functional and cosmetic results. Objective. To evaluate the clinical response of a patient with widespread segmental nevus spilus to Q-switched (QS) alexandrite laser. Methods. The treatment was QS alexandrite laser (755 nm, 100 nsec) with a mean fluence of 7.28 ± 0.37 J/cm2 using a single-impact technique at 10 ± 8.47-week intervals. Results. Fifty percent clearance of the facial portion of the lesion was observed after 16 treatment sessions with QS alexandrite laser. Conclusion. QS alexandrite laser is suitable for removal of widespread segmental nevus spilus. [source]

Comparison of Long-Pulsed Diode and Long-Pulsed Alexandrite Lasers for Hair Removal: A Long-Term Clinical and Histologic Study

DERMATOLOGIC SURGERY, Issue 7 2001
Christiane Handrick MD
Background. Unwanted facial and body hair is a common problem, generating a high level of interest for treatment innovations. Advances in laser technology over the past several years has led to the development and distribution of numerous red and infrared lasers and light sources to address this issue. Despite the impressive clinical results that have been reported with the use of individual laser hair removal systems, long-term comparative studies have been scarce. Objective. To compare the clinical and histologic efficacy, side effect profile, and long-term hair reduction of long-pulsed diode and long-pulsed alexandrite laser systems. Methods. Twenty women with Fitzpatrick skin types I,IV and dark terminal hair underwent three monthly laser-assisted hair removal sessions with a long-pulsed alexandrite laser (755 nm, 2-msec pulse, 10 mm spot) and a long-pulsed diode laser (800 nm, 12.5 msec or 25 msec, 9 mm spot). Axillary areas were randomly assigned to receive treatment using each laser system at either 25 J/cm2 or 40 J/cm2. Follow-up manual hair counts and photographs of each area were obtained at each of the three treatment visits and at 1, 3, and 6 months after the final laser session. Histologic specimens were obtained at baseline, immediately after the initial laser treatment, and 1 and 6 months after the third treatment session. Results. After each laser treatment, hair counts were successively reduced and few patients found it necessary to shave the sparsely regrown hair. Optimal clinical response was achieved 1 month after the second laser treatment, regardless of the laser system or fluence used. Six months after the third and final treatment, prolonged clinical hair reduction was observed with no significant differences between the laser systems and fluences used. Histologic tissue changes supported the clinical responses observed with evidence of initial follicular injury followed by slow follicular regeneration. Side effects, including treatment pain and vesiculation, were rare after treatment with either laser system, but were observed more frequently with the long-pulsed diode system at the higher fluence of 40 J/cm2. Conclusion. Equivalent clinical and histologic responses were observed using a long-pulsed alexandrite and a long-pulsed diode laser for hair removal with minimal adverse sequelae. While long-term hair reduction can be obtained in most patients after a series of laser treatments, partial hair regrowth is typical within 6 months, suggesting the need for additional treatments to improve the rate of permanent hair removal. [source]

In vitro study examining the effect of sub-lethal QS 755 nm lasers on the expression of p16INK4a on melanoma cell lines

LASERS IN SURGERY AND MEDICINE, Issue 2 2003
Henry H.L. Chan
Abstract Background and Objectives Q-switched lasers had been used in the treatment of lentigo maligna but their role remains controversial. While previous studies have addressed the change in adhesion molecule expression after sub-lethal laser damage, no study has addressed the impact of sub-lethal laser damage at a molecular level. The p16 gene has been proposed as the candidate gene for melanoma. Our objective is to examine the effect of sub-lethal laser damage on p16 expression in melanoma cell lines. Study Design/Materials and Methods Three human melanoma cell lines,HTB 66, Sk-mel-24 (HTB 71), and G361,were irradiated by a Q-switched 755 nm Alexandrite laser at fluencies that ranged from 0.85 to 2.0 J/cm2. HTB 66 was the only cell line with significant expression of p16INK4a while the other two cells lines were p16INK4a negative and served as negative control. Protein and mRNA expression for p16 were assessed by flow cytometry and RT-PCR, respectively. Results The level of p16INK4a protein in cell line HTB 66 increased significantly after laser irradiation as compared with non-irradiated cells. The level of p16INK4a protein did not change in p16INK4a-negative cell lines (Sk-mel-24 and G361). However, there was only a slight increase in the percentage of G0/G1 phase cells. Conclusions Sub-lethal laser damage could increase DNA damage leading to an increase in p16 expression, and such effect would be particularly undesirable for patients with p16 mutation. Further studies are warranted to examine the role of sub-lethal laser damage in inducing p16 mutation. Lasers Surg. Med. 32:88,93, 2003. © 2003 Wiley-Liss, Inc. [source]

Minocycline-Induced Hyperpigmentation Treated with a 755-nm Q-Switched Alexandrite Laser

Pigmentary Changes After Alexandrite Laser Hair Removal

DERMATOLOGIC SURGERY, Issue 4 2003
Noah Kawika Weisberg MD
Background Postinflammatory pigmentary changes are a frequently encountered problem with numerous dermatologic procedures. Limited literature is available that documents this complication with laser hair removal. Objective It is important for all physicians performing laser hair removal to be aware of this potential complication. We present our experience with postinflammatory pigmentary change and discuss some potential etiologic factors. Methods Seven patients who experienced postinflammatory complications after alexandrite laser hair removal are presented. These are all the patients who developed this complication in our office over the past 2.5 years. Results The patients who we describe in this article all developed a similar pattern of initial hyperpigmented rings, later developing into a thin wafer-like crust followed by hypopigmentation with gradual return to their normal skin color. Conclusion In general, the alexandrite laser is both safe and effective for hair removal in patients of varying skin types. Complication rates will increase as skin pigment increases and as the power used increases. However, even in light-skinned individuals without recent pretreatment or posttreatment sun exposure, with proper treatment parameters, complications, and side effects can arise. We have found this to be especially true when treating areas other than the face. [source]

Effect of Wax Epilation Before Hair Removal With a Long-Pulsed Alexandrite Laser: A Pilot Study

Combined Ultrapulse CO2 Laser and Q-Switched Alexandrite Laser Compared with Q-Switched Alexandrite Laser Alone for Refractory Melasma: Split-Face Design

Areolar Cosmetic Tattoo Ink Darkening: A Complication of Q-Switched Alexandrite Laser Treatment

DERMATOLOGIC SURGERY, Issue 1 2002
Sung-Eun Chang MD
background and objective. Medical tattooing of the areola is widely performed in Korea. However, cosmetic tattoos containing flesh-tone, purple-red, and yellow dyes are sometimes resistant to Q-switched laser and may even become darker. method. Two Korean women in their 30s who had a mastectomy got light brown to red areolar medical tattoos but they were not satisfied with the shape and size of the tattoos. They underwent Q-switched alexandrite laser treatment with a 3 mm collimated beam at fluences of 7.5,8 J/cm2 in order to trim the irregular contour and reduce the diameter of the tattoos. results. Within 5 minutes a dark gray to black discoloration of the treated area was evident and remained dark for 6 weeks. Improvement was not noted after two further Q-switched Nd:YAG laser treatments. conclusion. Medical areolar tattoos should be approached with extra caution when attempting their removal with high-energy pulsed lasers such as Q-switched alexandrite laser and a small test site should be performed prior to treatment. [source]

Laser Hair Removal: Long-Term Results with a 755 nm Alexandrite Laser

Laser Hair Removal with Alexandrite versus Diode Laser Using Four Treatment Sessions: 1-Year Results

DERMATOLOGIC SURGERY, Issue 11 2001
Sorin Eremia MD
Background. Laser hair removal is the treatment of choice for hypertrichosis. The two most commonly used hair removal lasers are compared. Objective. To present the results of a comparative study examining the role of wavelength, fluence, spot size, pulse width, and cooling systems on long-term results after a series of four laser hair removal treatments using the 755 nm alexandrite and 800,810 nm diode lasers. Methods. The axillae of 15 untanned, type I,V patients were treated side by side four times at 4- to 6-week intervals with a 755 nm, 3-msec pulse width, cryogen spray-equipped alexandrite laser and an 800 nm, variable pulse width, cooled sapphire window-equipped diode laser. Each patient was pretested and treated with the maximum fluence tolerated at the largest spot size available for each laser (12 mm round/113 mm2 for the alexandrite and 9 mm for the diode). Results. Evaluations were done at 3, 6, 9, and 12 months after the last treatment. Twelve-month results with the alexandrite and diode lasers achieved 85% versus 84% hair reduction. The fact that tan avoidance was strictly followed permitted the use of relatively high fluences (25,30+ J/cm2) even in type IV patients. For most patients, four treatment sessions using high fluences (30,40 J/cm2) with relatively large spot sizes (12 mm round for the 755 nm alexandrite and 9 mm for the 800 nm diode) resulted in 12-month hair reductions in the 90% range. Conclusion. Both the alexandrite and diode lasers in this 12-month study produced excellent long-term hair reductions. [source]

Treatment of Widespread Segmental Nevus Spilus by Q-Switched Alexandrite Laser (755 nm, 100 nsec)

Comparison of Long-Pulsed Diode and Long-Pulsed Alexandrite Lasers for Hair Removal: A Long-Term Clinical and Histologic Study

Removal of amateur blue-black tattoos in Arabic women of skin type (III,IV) with Q-switched alexandrite laser

JOURNAL OF COSMETIC DERMATOLOGY, Issue 2 2005
Iqbal A Bukhari
Summary Background and Objectives, Tattoos in Arabic society used to have a cosmetic importance on the face of females. These were usually amateur tattoos done by non-professional women in the tribe. Because Islam as a religion prohibited its practice and its application, people became concerned about removing the old tattoos by any means. Nowadays, laser is considered an effective method of tattoo removal. Here, we report our experience in the removal of tattoos in Arabic women of skin type III,IV using the Q-switched alexandrite laser. Study Design/Materials and Methods, Twenty female subjects aged 35,50 years from similar racial and ethnic background with amateur tattoos were treated using the Q-switched alexandrite laser. Fluence threshold was determined and a spot test was made. Q-switched alexandrite laser with a fluence range 4.0,7.5 J/cm2 (mean 6.05) was used at 6,12-week intervals. Total treatment numbers ranged from three to six sessions (mean 4.15) with single-pulse technique application. Results, More than 95% lightening was achieved in five patients after three to six sessions at fluence range of 6,7.5 J/cm2 and > 75% lightening in 10 subjects after three to six sessions of treatment at fluence range of 4,7.5 J/cm2. Pinpoint bleeding was observed in one case but no pigmentary alteration or scarring was seen. Conclusion, Tattoo pigment removal by Q-switched alexandrite laser is an effective method in skin type (III,IV) with minimal side effects, which gives high patient satisfaction. [source]

A direct comparison of pulsed dye, alexandrite, KTP and Nd:YAG lasers and IPL in patients with previously treated capillary malformations,

LASERS IN SURGERY AND MEDICINE, Issue 6 2008
David J. McGill MRCS(Ed)
Abstract Introduction Several studies have reported laser treatment of Capillary Malformations (CMs) using systems other than pulsed dye lasers (PDL). Few, however, have compared different systems in the same patients. This study aimed to directly compare CM fading using five different systems. Methods Eighteen previously PDL-treated patients were test-patched using the alexandrite, KTP, and Nd:YAG lasers and intense pulsed light (IPL) with additional PDL patches as a control. Pre- and post-treatment videomicroscopy, and colour measurements using Munsell colour charts were carried out. Results Four patients failed to respond to any test patches. The alexandrite laser test patches had the largest mean improvement in Munsell colour following treatment (P,=,0.023) and resulted in CM fading in 10 patients, although 4 patients developed hyperpigmentation, and 1 patient scarring, following treatment. In addition, the alexandrite laser caused a significant decrease in mean post-treatment capillary diameter (P,=,0.007), which was not mirrored by the other systems. The KTP and Nd:YAG lasers were least effective, with fading seen in two patients for both systems, whilst IPL patches resulted in CM fading in six patients. In addition, five patients had further CM fading using double-passed PDL treatment. Mean pre-treatment capillary diameter measurements were predictive of those patients likely to respond to laser treatment. Conclusions Alexandrite laser treatment was the most effective, but resulted in hyperpigmentation and scarring in four patients, probably due to its deeper penetration and lower specificity for oxyhaemoglobin causing non-specific dermal damage. Double passing of the PDL can result in further CM fading even in previously treated patients. Videomicroscopy measurements of capillary diameter before treatment may be predictive of the likelihood for patient's to respond to laser treatment. Lesers Surg. Med. 40:390,398, 2008. © 2008 Wiley-Liss, Inc. [source]

Efficacy of laser treatment of tattoos using lasers emitting wavelengths of 532 nm, 755 nm and 1064 nm

BRITISH JOURNAL OF DERMATOLOGY, Issue 2 2004
B.M. Prinz
Summary Background Multifunctional laser devices can be used to treat tattoos successfully. Objectives To report the efficacy of laser treatment in professional, amateur, accidental and permanent make-up tattoos from our own experience and to compare it with the literature. Methods We retrospectively studied 74 consecutive patients with professional, amateur, make-up and accidental tattoos between June 1998 and November 2000. Patients were treated with a Q-switched Nd:YAG laser (wavelengths of 532 nm and 1064 nm), a Q-switched alexandrite laser (755 nm) and a variable pulse Nd:YAG laser (532 nm). Results Fourteen patients (19%) achieved a complete response (> 95% lightening of treated tattoos), 23 (31%) an excellent response (76,95% lightening) and 21 (28%) a good response (51,75% lightening). Sixteen patients (22%) showed only a slight improvement (, 50% lightening). Make-up tattoos and blue,black professional tattoos were most successfully treated. Multicoloured professional tattoos needed more treatments (mean ± SD 5·7 ± 5·4) in comparison with single-colour tattoos (3·5 ± 2·0). The amateur tattoos needed fewer treatments (2·8 ± 1·1) in comparison with professional tattoos. With accidental tattoos the results depended on the particles which had penetrated the skin. In contrast to literature reports, newer tattoos showed a trend to better treatment results than older tattoos. Conclusions Using modern Q-switched lasers, tattoos are removed successfully with minimal risk of scarring and permanent pigmentary alterations. Even multicoloured tattoos can be treated successfully and with a low rate of side-effects. [source]