Combined pulsed dye laser and fiberoptic Nd-YAG laser for the treatment of hypertrophic port wine stain

The hypertrophic Port Wine Stain (PWS) is only partially and superficially treated with the Pulsed dye laser (PDL) because of its limited depth of penetration. We used combined PDL and fiberoptic 1444-nm Nd-YAG laser to treat a case with hypertrophic PWS. Method: After tumescent anesthesia, few holes were made by a 16-gauge needle on different sides of the lesion. The fiberoptic tip of 1444-nm Nd-YAG laser was inserted within the holes and was pushed forward while triggering. In a fan pattern and by a back and forth movement, the subcutaneous and deep dermal areas were coagulated. The skin and outer mucosal surfaces were then treated by PDL. The fiberoptic system used was Accusculpt 1444-nm Nd-YAG laser (Lutronic lasers, South Korea), and the PDL used was 585 nm Nlite system (Chromogenex UK). The parameters used for PDL were fluence = 9 Joules/cm² and the spot size was 5 mm. The parameters used for fiberoptic 1444-nm Nd-YAG laser were: Pulse rate = 30 Hz, pulse energy = 300 mJ, power = 6 W, and the total energy = 4000 J for the whole face and mucosa. Result: Little sign of regression and moderate purpura were detected immediately after combined fiberoptic Nd-YAG and PDL therapy. The lesion gradually regressed within 4 months with satisfactory color and volume change. Conclusion: Combined fiberoptic Nd-YAG laser and PDL can be used for the treatment of deeper and superficial layers of hypertrophic PWS.     

A patient with cupping-related post-inflammatory hyperpigmentation successfully treated with a 1,927 nm thulium fiber fractional laser

Abstract

Post-inflammatory hyperpigmentation is a rare complication following cupping therapy. We report a case of a 26-year-old woman who presented with hyper-pigmented skin lesions on her lower back which was persistent for 6 months following cupping therapy. The 1,927 nm thulium fiber laser (Fraxel re:store Dual, Solta Medical Inc., Hayward, CA) was tested leading to near complete resolution within four sessions.     

A randomized,single-blind,study evaluating a 755-nm picosecond pulsed Alexandrite laser vs. a non-ablative 1927-nm fractionated thulium laser for the treatment of facial photopigmentation and aging

Background: Laser toning is one of the most popular strategies to treat facial photopigmentation and aging. Several laser modalities, including fractional non-ablative, Q-switched (QS) lasers and new generation picosecond lasers have been used for this indication. However, there is paucity of head to head comparisons of older generation of lasers with new ones.

Objective: To compare a 755 nm picosecond pulsed alexandrite laser with a non-ablative 1927 nm fractionated thulium laser for the treatment of facial photopigmentation and aging through a randomized, single-blind study.

Materials and methods: 20 subjects (skin types I–IV) were randomized to receive either four 755-nm picosecond alexandrite laser treatments, spaced 3 weeks apart, or two dual wavelength thulium fiber fractionated 1550/1927 nm laser treatments, spaced 6 weeks apart. Follow-up assessment visits occurred 4 and 12 weeks after the last study treatment.

Results: At the 4- and 12-week follow-up, both groups showed significant improvement of photoaging, pigmentation, skin quality according to the investigator and subjects assessments. When comparing the two groups, subjects in 755 nm group had statistically significant greater improvement in investigator assessments of photoaging/skin quality and subject satisfaction than those in the 1927 nm group.

Conclusion: Both the non-ablative 1927 and 755 nm picosecond laser can improve facial photopigmentation, but the latter can yield superior results with less pain and side effects according to patient and investigator assessments.     

A study of multiple full-face treatments with low-energy settings of a 2940-nm Er:YAG fractionated laser

Abstract

Background and objective: Fractional Er:YAG 2940-nm laser resurfacing is a relatively new approach to the treatment of photodamaged skin. Typically, this approach uses fairly high delivered energies in order to create ‘microscopic wounds’ of tissue coagulation at various dermal depths. The purpose of this study was to evaluate the efficacy, safety and tolerability of low-energy, multiple-treatment, fractional Er:YAG laser resurfacing for the treatment of photoaged skin. Methods: Sixteen subjects with photoaged skin received six, lower-fluence laser treatments with a 2940-nm wavelength Er:YAG laser, using a fractionated handpiece and a maximum energy of 30 mJ per micro-spot. Subject satisfaction, treatment tolerability, and subject outcome assessment were performed. Results: Of the 12 subjects who completed the trial, all recorded improvement in their treated skin; half reported over 50% improvement. Most patients reported none or only mild stinging and burning during and after treatment. There was no downtime associated with the procedure. No adverse events were reported. Patient satisfaction rates were high. Conclusion: Low-energy, multiple treatment, 2940-nm Er:YAG laser resurfacing with this novel device is a safe and well-tolerated method for the treatment of superficial to moderate photoaged skin.     

Disseminated superficial actinic porokeratosis improved with fractional 1927-nm laser treatments

Disseminated superficial actinic porokeratosis (DSAP) is an inherited disorder of keratinization readily diagnosed through clinical and histologic examination. While generally benign in nature, the lesions can have profound psychosocial implications for patients. Although no cure exists, a number of treatment modalities, from topical medications to laser and light devices, have been reported with variable success. The authors report two cases of DSAP treated with the 1927-nm thulium fiber fractional laser along with a review of the treatment literature for DSAP. This therapy is convenient and safe with nearly no downtime or morbidity associated with pigment or textural changes.     

Histological and molecular analysis of the long-pulse 1,064-nm Nd:YAG laser irradiation on the ultraviolet-damaged skin of hairless mice: In association with pulse duration change

Background: Nonablative lasers have been widely used to improve photodamaged skin, although the mechanism underlying dermal collagen remodeling remains unclear. Objective: To investigate the effects and the molecular mechanisms of long-pulse neodymium-doped yttrium aluminum garnet (Nd:YAG) laser irradiation on dermal collagen remodeling in association with different pulse durations. Material and methods: Five hairless mice were pretreated with ultraviolet B irradiation for 8 weeks. The dorsal quadrant of each mouse was then irradiated twice at 1-week intervals at a pulse duration of 1 ms, 12 ms, or 50 ms, and a constant fluence of 20 J/cm². The levels of dermal collagen, mRNAs of procollagens, matrix metalloproteinases (MMPs), tissue inhibitor of metalloproteinases (TIMPs), and various growth factors were analyzed after 4 weeks. Results: Long-pulse Nd:YAG treatment increased the dermal collagen level. A substantial increase in the level of procollagens, MMPs, TIMPs, and various growth factors was also observed irrespective of pulse duration, with a trend toward maximal increase at a pulse duration of 12 ms. Conclusion: Long-pulse 1,064-nm Nd:YAG laser irradiation promotes wound-healing process, which is characterized by the induction of growth factor expression and subsequent increase in MMPs and TIMPs, followed by matrix remodeling as confirmed by new procollagen production.     

Successful removal of polyacrylamide hydrogel by pulsed fiberoptic 1444-nm Nd-YAG laser

Abstract

Background: Tissue augmentation by polyacrylamide gel (PAAG) may lead to displacement or complications several years later and necessitate its removal. Objective: To use a fiberoptic 1444-nm neodymium-doped yttrium aluminum garnet (Nd-YAG) laser for removing polyacrylamide hydrogel augmentations. Methods: Five patients with frontal and cheek augmentations were referred for gel removal. After nerve block anesthesia, a 600-μm optical fiber tip with a metallic cannula was inserted into a hole created by a 16-gauge needle, and the laser was triggered. The cannula was moved in a fan pattern in the augmented area and was then removed. The tissue was squeezed from its outermost region toward the hole to extrude the gel. The laser system used was a 1444-nm fiberoptic Nd-YAG, obtained from Lutronic lasers, South Korea. The parameters used were: pulse rate = 30, pulse energy = 150 J, power = 4.5 W, and total energy = 400–1200 J. Results: The heat of the laser tip liquefies the gel and by coagulating the surrounding tissues, it produces multiple patent canals. These two factors facilitate gel removal by squeezing the tissues. No temporary or permanent complication, such as hematoma, burning, or fibrosis, was detected. Conclusion: The 1444-nm Nd-YAG laser is a safe and efficient method for removing subcutaneous polyacrylamide hydrogel.     

Response of authors: ‘Lift capabilities of hyaluronic acid fillers’

Abstract

Background: A new fractional photothermolysis device is used in our retrospective study to treat melasma in Chinese patients. Objectives: To evaluate the efficacy and safety of the 1927 nm fractional thulium fiber laser in the treatment of melasma in Chinese patients. Methods: Eleven melasma patients who received treatment between November 2009 and May 2010 were included. Photographic images at baseline and follow-up were assessed for clinical efficacy and complications by two independent and blinded physicians. Questionnaires were also completed by patients. Results: Significant MASI improvements were seen at 1 week, 1 month and 2 months, but not at 3 months. Patients’ degree of satisfaction was high. Significant improvement in skin texture and pore size was seen for up to 2 months and improvement in wrinkles for up to a month. There was no change in skin laxity. Main adverse effects seen were erythema, edema, and crusting in the early days. One patient developed PIH. Conclusion: The novel 1927 nm fractional thulium fiber laser is safe and effective in the management of melasma in Chinese patients for up to 2 months. It is also useful in photo-rejuvenation. Complications were limited to erythema and edema in the early days, and transient PIH.     

Treatment of striae distensae using an ablative Erbium: YAG fractional laser versus a 585-nm pulsed-dye laser

Abstract

Striae distensae (SD) represent a common disfiguring cutaneous condition characterized by linear reddish smooth bands of atrophic-appearing skin. Most often SD develop in areas of dermal damage produced by stretching. Numerous treatment modalities have been applied with varying success. Novel approaches include treatments with various types of lasers with the flashlamp-pumped pulsed dye laser (PDL; 585 nm) being the most commonly reported. Very recently, fractional photothermolysis has been suggested as an effective method for the treatment of SD. Here, we report on the effect of an ablative Erbium:YAG fractional laser in two cases of axillary SD in comparison with a 585-nm PDL.     

Usefulness of Skin Explants for Histologic Analysis after Fractional Photothermolysis

Background

Fractional laser resurfacing treatment has been extensively investigated and is widely used. However, the mechanism underlying its effects is poorly understood because of the ethical and cosmetic problems of obtaining skin biopsies required to study the changes after laser treatment.

Objective

To evaluate the usefulness of human skin explants for the investigation of fractional photothermolysis.

Methods

Full-thickness discarded skin was treated in 4 ways: no treatment (control), fractional carbon dioxide laser, fractional Er:YAG laser, and fractional 1,550-nm erbium-doped fiber laser. Both treated and non-treated skin samples were cultured ex vivo at the air-medium interface for 7 days. Frozen tissue was sectioned and stained with hematoxylin & eosin for histologic examination and nitro blue tetrazolium chloride for viability testing.

Results

Skin explants cultured for up to 3 days exhibited histologic changes similar to those observed in in vivo studies, including microscopic treatment zones surrounded by a thermal coagulation zone, re-epithelialization, and formation of microscopic epidermal necrotic debris. However, the explant structure lost its original form within 7 days of culture. The viability of skin explants was maintained for 3 days of culture but was also lost within 7 days.

Conclusion

The skin explant model may be a useful tool for investigating the immediate or early changes following fractional photothermolysis, but further improvements are required to evaluate the long-term and dermal changes.     

Efficacy and safety of 1550-nm fractional laser in the treatment of acne scars in Chinese patients: A split-face comparative study

Objective: To evaluate the efficacy and side effects of 1550-nm fractional Er:Glass laser in treating atrophic acne scar. Materials and methods: Thirty Chinese patients aged 18–65 with atrophic acne scars on both cheeks received a split-face treatment, one side with four sessions of treatment with fractional 1550-nm Er:Glass laser at 20-day interval and the other with topical asiaticoside cream application three times daily as control. Clinical response and side effects were evaluated by a dermatologist three weeks after each treatment and again 12 weeks after the last laser treatment. In addition, self-evaluation of satisfaction by the patients was done at the end of treatment. Results: The study found that mean scores decrease after treatment was 5.65 ± 4.34 for the treated side and 1.23 ± 3.41 for the control side. The improvement in acne scars after the fractional Er:Glass laser 1550-nm treatment was more significant than the control side (p = 0.0001). The side effects were mainly local skin irritation and erythema, which disappeared within one week. Conclusion: The research results show that the fractional 1550-nm Er:Glass laser is an effective and safe treatment device for atrophic acne scars.     

Histologic comparison of microscopic treatment zones induced by fractional lasers and radiofrequency

Abstract

Introduction: Fractional photothermolysis induces microscopic, localized thermal injury in the skin surrounded by undamaged viable tissue in order to promote wound healing. Objective: This study evaluated acute histologic changes following each single pass of various fractional lasers and radiofrequency (RF). Methods: Three male domestic swine were used. We used fractional Erbium:glass (Er:glass), Erbium:yttrium-aluminum-garnet (Er:YAG), CO₂ lasers, and fractional ablative microplasma RF. We analyzed features and average values of the diameter, depth, and vertical sectional areas treated with each kind of laser and RF. Results: The microscopic treatment zone (MTZ) of fractional Er:glass resulted in separation of dermoepidermal junction with no ablative zone. Fractional Er:YAG provided the most superficial and broad MTZ with little thermal collateral damage. Fractional CO₂ resulted in a narrow and deep “cone”-like MTZ. Fractional RF resulted in a superficial and broad “crater”-like MTZ. Conclusions: This study provides the first comparison of MTZs induced by various fractional lasers and RF. These data provide basic information on proper laser and RF options. We think that these findings could be a good reference for information about fractional laser-assisted drug delivery.     

Histology of ex vivo skin after treatment with fractionated picosecond Nd:YAG laser in high and low-energy settings

ABSTRACT

Background: The fractionated picosecond laser produces microscopic lesions in the epidermis and dermis, which are known as laser-induced optical breakdown (LIOB) and intra-dermal laser-induced cavitation (LIC). There have been multiple histological reports on these phenomena, although some have been challenged on the grounds of similarity to artifacts. Asian skins, with a higher melanin content, may react differently to this treatment, and present literature is also lacking in this area.

Purpose: To observe and report the histological effect of different energy levels and parameters of the fractional 532 nm/1064 nm picosecond laser on Asian skin ex vivo.

Methods: Six skin samples were taken from clinically normal-looking perilesional areas and treated with different energy levels and parameters of the fractional 532 nm/1064 nm picosecond laser. The specimens were then sent to the lab for H&E staining, and the slides were reviewed by a dermatopathologist.

Results: Superficial, intra-epidermal LIOBs were seen in skin treating at higher laser energies; deep, intra-dermal LICs were seen in skin treated at lower energies. Lesion sizes and depths were consistent with previously reported values on Caucasian skins, and lesions were spaced in 600-μm intervals or its multiple.

Conclusions: The histological findings are consistent with results from other ethnicities, and the spacing of lesions is a strong indication of their validity as LIOBs or LICs.     

Laser lipolysis of the arm,with and without suction aspiration: Clinical and histologic changes

Background and objective: Liposuction has become increasingly popular over the past several decades. However, liposuction is a relatively traumatic procedure with known risks, which include skin redundancy. Laser lipolysis has the potential of producing similar clinical results to those seen with liposuction while providing the additional benefit of tissue tightening. In this study, we evaluated the efficacy, safety, and histologic changes induced by 1064-nm Nd:YAG laser lipolysis. Furthermore, we investigated the benefit of suction aspiration after laser lipolysis. Methods: Twenty female subjects, aged 44–66 years, underwent a single laser lipolysis treatment of the extensor arm fat pads. Treatment was undertaken after infusion of tumescent anesthesia. Lipolysis was undertaken with a 10-Watt 1064-nm Nd:YAG laser (SmartLipo? Cynosure Lasers, Chelmsford, MA, USA), delivered via a 300-μm fiber encased in 1-mm micro-cannula introduced through a 1-mm incision. The liquefied fat was removed via standard liposuction aspiration in 50% of patients. Subjects were evaluated at 6 months after laser lipolysis for reduction of unwanted fat and any associated complications. Post-procedure histologic changes were also evaluated. Results: Clinical improvement in both unwanted fat and associated skin tightening was noted in most subjects. Results at 6 months were greater than those seen at 1 month. The clinical observations were substantiated by measurements showing an average reduction in the arm circumference following treatment. No significant treatment-induced complications were noted. Treatment with and without post-laser lipolysis suction aspiration produced similar results. Histologic changes showed disruption of adipocytes and evidence of connective tissue thermal injury. Conclusion: Laser lipolysis using the 1064-nm Nd:YAG represents a safe and effective option for removal of unwanted fat of the upper arm. Results were identical whether or not post-laser suction aspiration was undertaken.     

A study of fractional CO₂ laser resurfacing: the best fluences through a clinical, histological, and ultrastructural evaluation

Background Fractional resurfacing is a laser treatment modality to create numerous microscopic thermal injury zones of controlled width, depth, and density that are surrounded by a reservoir of spared epidermal and dermal tissue, allowing rapid repair of laser‐induced thermal injury. Objective To evaluate the safety and efficacy of a fractional CO₂ laser system in the treatment of photo‐damaged skin with clinical, histological, and ultrastructural evaluation, with special attention to one of the parameters of this laser system: the fluences. Materials and methods Twelve patients with Fitzpatrick skin types II to III with photo‐damage skin underwent fractional laser treatment with one single‐pass superficial on the face and forearm. Clinical outcome and histological and ultrastructural changes were assessed. Results  Light microscopy of biopsies gave important information about skin changes at three different times after fractional treatment, especially revealing some differences between the fluences used in the three groups of patients. Conclusion Fractional resurfacing offers significant surgical advantages allowing to achieve excellent esthetic results in balance with the biological structure. Besides, our study shows already that with 2.07 and 2.77 J/cm², instead of 4.15 J/cm², it is possible to reach a biological response without scar formation.     

Fractional non-ablative laser treatment at 1410 nm wavelength for periorbital wrinkles – reviscometrical and clinical evaluation

Objective: The aim of the research was to establish the influence of 1410-nm fractional non-ablative laser treatment on skin aging in the eye area. The reviscometer reference test is an objective method of estimating the flexibility of the skin. The photographic records were used as the auxiliary method of the therapy quality effectiveness. Materials and methods: The study involved the group of 13 people (12 females and 1 male, aged 33–47 with prototype II and III according to the Fitzpatrick scale), who underwent two sessions of fractional non-ablative laser therapy (wavelength of 1410 nm) with a 2-week interval. In order to evaluate the effectiveness of the quality of the treatment a reviscometer probe was used to measure the skin elasticity (Reviscometer RVM 600). The measurements were taken twice: directly before and two weeks after the treatment. Furthermore, to facilitate the clinical evaluation an anonymous photographical documentation was prepared. Results: An improvement of the skin flexibility in the eye area was observed and the fact was confirmed by values obtained using the reviscometer probe (significant statistic differences: P < 0.0001) as well as clinical assessment based on photographical records. Conclusion: On the basis of the reviscometer measurements analysis and photographical records, 1410-nm fractional non-ablative laser treatment appears to be an efficient method contributing to the improvement of the skin flexibility of the eyes area as well as to the reduction of the number of wrinkles. The post-treatment observation proves that the method is well-tolerated in the sensitive eyes area and does not cause any significant side effects.     

Successful treatment of malar dermal melasma with a fractional ablative CO2 laser in a patient with type V skin

Abstract

Background/Objective: Melasma is a common disorder of hypermelanosis, and although numerous treatment modalities have been employed, many cases are refractory to treatment or the improvement after therapy is temporary. Methods: The clinical files, treatment parameters, and photographs of a 59-year-old female with black skin with refractory malar dermal melasma treated using a fractionally ablative CO₂ laser (Affirm 10 600 nm) for seven sessions were carefully reviewed. Results: After treatment, clinical improvement was achieved. Conclusion: The fractional ablative CO₂ laser is a potentially safe and effective modality for the treatment of dermal melasma in Fitzpatrick type V skin.     

A prospective,split-face,double-blinded,randomized study of the efficacy and safety of a fractional 1064-nm Q-switched Nd:YAG laser for photoaging-associated mottled pigmentation in Asian skin

Background: Laser toning using low-fluence 1064-nm Q-switched neodymium-doped yttrium aluminum laser (QSNY) has gained popularity in the treatment of photoaging-associated mottled pigmentation (PMP). However, hypopigmentation or lack of efficacy has been reported depending on the fluences used. Objective: To compare a novel fractional 1064-nm QSNY with conventional 1064-nm QSNY for the treatment of photoaging-associated mottled pigmentary lesions except epidermal lesions of lentigines and freckles through a randomized, split-face, double-blind study. Materials and methods: Thirteen Asian women were treated every week for 6 weeks with fractional 1064-nm QSNY on one side of the face and conventional 1064-nm QSNY on the other side. We evaluated the pigmentation area and severity index (PSI), melanin index, erythema index, and the patient's global assessment of improvement. Results: At three months post-treatment, the PSI score improved compared with baseline, by 14.48% on the conventional 1064-nm QSNY side and 21.81% on the fractional 1064-nm QSNY side. Both groups showed improvements in the melanin index. Conclusion: Both fractional 1064-nm QSNY and strictly low-fluence conventional 1064-nm QSNY are moderately effective against PMP and other photoaging signs. Fractional laser toning shows better subjective outcomes than conventional toning.     

Effects of the 810-nm diode laser on hair and on the biophysical properties of skin

Abstract

Introduction: Laser therapy is clinically effective in hair removal; however, despite the development of various strategies, laser procedures still present a risk of adverse effects due to the overheating of the skin. Objective: To investigate the effects of 810-nm diode laser treatment on hair and on the biophysical properties of skin by using various non-invasive techniques on various parameters, including hair analysis, surface color changes, integrity of skin barrier, sebum production rate and pH level. Methods: In this randomized, right–left comparison study, 35 women with axillary hair received single-session diode laser therapy. Hair analysis and biophysical properties of the skin were assessed before treatment and at weeks 2, 4 and 6 after the therapy. Results: Hair density and thicknesses statistically significantly decreased after the first post-treatment evaluation. Regarding comparison of the biophysical properties of the skin, there was no statistically significant difference in the assessments, except for the increase determined during the second week in the erythema index in the laser-treated areas. Conclusion: The findings of this study showed that the diode laser can perform a significant reduction in the hair amount without significant epidermal damage, at least for a short period.     

Clinical evaluation and in-vivo analysis of the performance of a fractional infrared 1550 nm laser system for skin rejuvenation

Background: This study was done to demonstrate the safety and efficacy of a novel fractional 1550 nm laser device with a rolling mechanism (FRAX1550 Ellipse Medical, Horsholm, Denmark).

Objectives: To evaluated the effectiveness of the 1550 nm device for improvement in wrinkles, pigmentation, and texture on a six point (?1 to 4) global improvement scale.

Methods: Five female subjects between the ages of 44 and 71 years, with visible wrinkles and/or dyspigmentation were enrolled in the study. Two full face treatments were performed four weeks apart Follow-up visits at 1 and 3 months posttreatment were scheduled for photographic assessments. Assessment of improvement were performed by the investigators and two blinded evaluators through use of a six-point scale.

Results: All subjects demonstrated improvement in all monitored parameters. The mean improvement scores were: wrinkles 1.6, skin texture 1.8, and pigmentation 1.7. All score improvements were statistically significant. Biopsy was performed on one patient immediately post-treatment and showed 800 μ penetration depth at a treatment level of 88 mJ and 400 μ at 44 mJ.

Conclusions: The new rolling fractional 1550 nm laser device from this study offers improvement of aging facial skin with short downtime and minimal side effects.