Scar Therapy of Skin.

Scar therapy is truly important in medicine. Patients experience great loss in quality of life with scars. There are many treatment modalities that help treat scars, including topical, intralesional, surgical, and energy-based devices. In addition, early intervention can help mitigate scar formation. Lasers represent a major innovation in the treatment of all types of scars. Treating scars is a multimodal and multispecialty endeavor. This article highlights the use of many therapies to treat scars and scar symptoms including pruritus, pain, and range of motion. This also highlights key literature including multiple recent consensus guidelines in treating scars.

An Atlas of Optical Coherence Tomography (OCT): Elucidating In Vivo Differences of Scar Types Using OCT in Order to Guide Laser Treatment Parameters.

Objective: When using laser therapy to effectively treat scars, the choice of treatment parameters depends on the knowledge accuracy of the underlying scar pathology, which is often difficult to judge by gross physical exam. As such, more quantitative measures are needed. In recent years, optical coherencetomography (OCT) has shown promise as a real-time imaging technolgoy of skin microstructure. A key step in developing a methodology for utilizing OCT to develop a comprehensive 'atlas' of OCT characteristics of a wide variety of scar types. This atlas may then be used as a tool for selecting the optimal treatment modality and parameters for each scar type. Methods: One hundred and fifty scars of a wide range of anatomical locations were imaged using OCT, capturing both vascular and structural data. A variety of scar etiologies (e.g. burn, surgical, traumatic) and types (e.g. hypertrophic, keloidal, atrophic) were included. Comparator scans were also taken from normal, unscarred skin. Results: OCT revealed morphological differences in the epidermis and dermis between scars and normal tissue, and between scar subtypes. Features affected by scar pathology included epidermal thickness, skin surface texture, dermal epidermal junction rugosity, blood vessel density, vessel shape and diameter, vessel direction and vascular network, dermis scattering intensity and non-uniformity. Each scar subtype showed consistent characteristics distinct from other scar subtypes. Limitations: This was a single-site study of a patient population in South Florida. Conclusion: OCT is a powerful new objective tool for the clinician to utilize in the pursuit of effective laser treatment parameters by enabling personalized treatment based on individual scar characteristics in order to maximize treatment capabilities.

Dermal Micro-coring for the Treatment of Moderate to Severe Facial Wrinkles.

Micro-coring technology (MCT) removes cores of skin without formation of scars, thereby tightening skin and reducing skin wrinkling. The purpose of this study was to evaluate the safety and efficacy of MCT with the dermal micro-coring device for the treatment of facial wrinkles. Methods: This prospective, multicenter clinical trial included fifty-one subjects who underwent MCT treatments of the mid to lower face. The primary study endpoint was change in the Lemperle Wrinkle Severity Scale. Secondary study endpoints were change in Global Aesthetic Improvement Scale (GAIS), participant satisfaction, and evaluation of treatment outcome by an independent review panel. All study endpoints were evaluated at 1, 7, 30, 60, and 150 or 180 days after treatment. Procedure bleeding, pain, and early healing profile were also captured. Results: The mean Lemperle Wrinkle Severity Scale change was 1.3 grades. Improvement in the GAIS was reported for 89.7% (87/97) of treated sites, and average improvement of GAIS was 1.5. Participants reported satisfaction with 85.6% of treatment sites. The independent review panel correctly identified 84.2% of the post-treatment photographs as post-treatment. Procedure bleeding and pain was mild with good healing responses and patient-reported average down time of 3 days. Conclusions: The results of this study demonstrate the safety and efficacy of MCT with the dermal micro-coring device for the treatment of moderate to severe facial wrinkles. MCT led to significant improvement of facial wrinkles with high patient satisfaction and fast recovery time and should be considered in patients who are seeking minimally invasive treatment for wrinkles of the face.

Prospective study of intense pulsed light versus pulsed dye laser with or without blue light in the activation of PDT for the treatment of actinic keratosis and photodamage.

BACKGROUND: Exposure to ultraviolet (UV) light from the sun is known to have a deleterious effect on the skin. Repeated insults to the dermal matrix from UV radiation result in the clinical signs of photodamage, including changes in skin elasticity, color, and texture. UV radiation also leads to the accumulation of DNA mutations and promotes tumor development, resulting in the formation of cutaneous precancerous and cancerous lesions. Continuous-wave incoherent blue light, intense pulsed light (IPL), and pulsed dye laser (PDL) are safe and efficacious light sources commonly used for aminolevulinic acid photodynamic therapy (PDT). The aim of this study was to prospectively evaluate the efficacy of PDT for the treatment of photodamage and actinic keratoses using four different combinations of light sources: PDL, PDL + blue light, IPL, and IPL + blue light. STUDY: A total of 220 patients with either photodamage or actinic keratosis (AK) were recruited from the Miami Dermatology Laser Institute (Miami, FL) and were assigned prospectively to undergo one PDT treatment with one of the four light options: PDL, PDL + blue light, IPL or IPL + blue light. Of the 220 patients enrolled in treatment groups, 214 patients completed the study. Of the 214 patients, 88 received treatment for AK, and 126 received treatment for photodamage. All patients gave their consent to participate in the study and to allow their photographs to be utilized for the purpose of scientific presentations. RESULTS: Treatment with IPL resulted in a 70.8% reduction of actinic keratoses at a 1-month follow-up. Treatment with IPL and blue light 84.4% reduction of actinic keratoses at 1 month follow up. Treatment with PDL 70.5% reduction of actinic keratoses at 1 month follow up. Treatment with PDL and blue light 69.3% reduction of actinic keratoses at 1 month follow up. Treatment with IPL resulted in an improvement score of 2.9. Treatment with IPL and blue light resulted in an improvement score of 3.0. Treatment PDL resulted in an improvement score of 1.5. Treatment with PDL and blue light resulted in an improvement score of 1.8. CONCLUSION: Although all four treatment groups led to some improvement in signs of photoaging, IPL + blue light again demonstrated increased efficacy when compared to IPL, PDL, and PDL + blue light treatment groups. Results from our study were limited by an unequal distribution between treatment groups and a lack of follow-up beyond a 1-month period and warrant further research.

1,550 nm Erbium-Doped and 1,927 nm Thulium Nonablative Fractional Laser System: Best Practices and Treatment Setting Recommendations.

BACKGROUND: The Fraxel Dual laser system (Solta Medical, Inc., Bothell, WA) contains a 1,550 and 1,927 nm wavelength single handpiece with different indications for each wavelength. OBJECTIVE: To discuss treatment setting recommendations and best practices for select on-label and investigational applications of the 1,550 and 1,927 nm dual laser system. MATERIALS AND METHODS: Eight board-certified dermatologists with 10 or more years of experience with the 1,550 and 1,927 nm laser system completed an online survey about their clinical experience with the system and then participated in a roundtable to share clinical perspectives and best practices for using the laser system. RESULTS: For all Fitzpatrick skin types, treatment recommendations were described for selected approved indications for the 1,550 and 1,927 nm laser system, including both lasers in combination. Treatment recommendations were also reached for investigational applications with the 1,550 nm laser and 1,927 nm laser. Best practices for using the lasers during the treatment session to achieve optimal outcomes and decrease the post-treatment recovery time were compiled. CONCLUSION: The 1,550 and 1,927 nm dual laser system is effective for a wide range of aesthetic and therapeutic applications, on and off the face and across all Fitzpatrick skin types.

Medical and aesthetic improvement of photodamaged skin by the combination of intense pulsed light and photodynamic therapy with 10% aminolevulinic acid hydrochloride gel.

OBJECTIVE: To evaluate the efficacy and safety of photodynamic therapy (PDT) with the novel 10% aminolevulinic acid (ALA) hydrochloride gel (10% ALA gel) and BF-RhodoLED® light (635 nm; 37 J/cm2 ) in combination with intense pulsed light (IPL) to augment the medical and aesthetic improvement of photodamaged skin of the décolleté. METHODS: This was a single-site prospective, randomized, intraindividual split chest pilot study with 20 female subjects with moderate to severe photodamage of the décolleté. Subjects were randomized to ALA-PDT + IPL to one split-side of the chest and ALA-PDT only to the contralateral side. Three blinded raters assessed aesthetic improvement using the global aesthetic improvement scale (GAIS). RESULTS: Eighteen subjects completed the study. Superior GAIS results were achieved on the ALA-PDT + IPL treatment side than on the ALA-PDT only treatment side (p < 0.001) after 24 weeks of follow-up. CONCLUSIONS: ALA-PDT using 10% ALA hydrochloride gel and BF-RhodoLED® light had superior rejuvenation effects on the décolleté when combined with IPL compared to ALA-PDT alone.

Analysis of port-wine birthmark vascular characteristics by location: Utility of optical coherence tomography mapping.

INTRODUCTION: Port-wine birthmarks (PWBs) are congenital capillary malformations that can be located on any area of the body. Vascular features include vessel size, depth, and density, which can greatly differ between patients, individual lesions, and even sites within the same lesion. Previous studies have determined that the location of PWB lesions has impacted their clinical response to laser treatment. OBJECTIVE: We utilized dynamic optical coherence tomography (D-OCT) to measure in vivo vessel diameter, density, and superficial plexus depth in patients of all ages with PWB on various sites of the body. We hypothesized that these vascular characteristics would differ according to body location. MATERIALS AND METHODS: Patients who had a PWB and presented to clinic at three sites for treatment with the pulsed dye laser (PDL) were enrolled into the study. A D-OCT scanner was utilized for noninvasive, in vivo imaging of PWB lesions. The depth of the top portion of the superficial vascular plexus was estimated as the depth at which the vessel density reaches 50% of the maximum. Vessel diameter and density were calculated by incorporated software algorithm. RESULTS: A total of 108 patients were enrolled into the study. There was a total of 204 measurements of PWB lesions. Of all patients, 56.5% (n = 61) reported having a previous treatment with PDL. Of all D-OCT scans, 62.3% (n = 127) were located on the head, 14.2% (n = 29) the upper extremities, 8.3% (n = 17) the lower extremities, 7.8% (n = 16) the trunk, and 7.8% (n = 15) the neck. All locations were compared for each vascular characteristic. For superficial plexus depth, lesions on the head were significantly shallower than those on the upper extremities (217 vs. 284 µm; p < 0.001) and lower extremities (217 vs. 309 µm; p < 0.001). For vessel diameter, lesions on the head had significantly larger vessels than those on the upper extremities (100 vs. 72 µm; p = 0.001). For vessel density, lesions on the head had significantly denser vessels than those on the trunk (19% vs. 9.6%; p = 0.039) and upper extremities (19% vs. 9.3%; p < 0.001) CONCLUSIONS: PWB lesions have distinct vascular characteristics, which can be associated with their body location. This includes superficial vascular plexus depth as well as vessel diameter and density.

Vascular characteristics of port wine birthmarks as measured by dynamic optical coherence tomography.

BACKGROUND: Port wine birthmarks (PWBs) are congenital capillary malformations. Vessel characteristics, such as diameter and depth, may impact presentation and outcomes. They can be imaged using dynamic optical coherence tomography, a high-resolution, noninvasive imaging method. PURPOSE: We conducted a cross-sectional observational study to measure in vivo vascular characteristics as a function of PWB color. METHODS: Patients undergoing treatment for PWB were recruited from 3 sites. PWBs were classified by color. Dynamic optical coherence tomography images with calculations were obtained. RESULTS: One hundred eight patients were enrolled. Mean age correlated with PWB color, with birthmarks being lighter in younger patients and darker in older patients (P < .01). Mean superficial plexus depth was significantly shallower in purple PWBs than in pink PWBs. Color was not associated with significant differences in mean superficial vessel density or diameter. Among pink PWBs, each 10-year increase in age was associated with a 10.6-µm increase in superficial plexus depth. Among purple PWBs, each 10-year increase in age was associated with a 16.2-µm reduction in superficial plexus depth. In lesions without prior treatment, vessel density was 12.7% lower in purple PWBs than in pink PWBs. CONCLUSION: Superficial vessels of purple PWBs were significantly closer to the epidermis than those of pink PWBs, which might impact optimal laser parameters.

Improvement of Burn Scars Treated With Fractional Ablative CO2 Lasers-A Systematic Review and Meta-analysis Using the Vancouver Scar Scale.

Fractional ablative CO2 laser is being used increasingly to treat burn scars; however, objective measures of outcome success vary widely. This systematic review and meta-analysis extracts and pools available data to assess the outcomes of patients with burn scars treated with fractional ablative CO2 laser. A search of MEDLINE, EMBASE, and the gray literature was performed. The review included studies that reported patients with a confirmed diagnosis of scarring as a result of a burn injury, who were treated with fractional ablative CO2 laser and whose progress was recorded using the Vancouver Scar Scale (VSS). Eight studies were included in the systematic review and meta-analysis. Treatment regimens varied amongst studies, as did patient outcomes. Pooled data revealed an average VSS improvement of 29% across 282 patients following fractional CO2 ablative laser treatment. Although the heterogeneity of treatment regimens across studies limits this systematic review's ability to provide specific treatment recommendations, the overall trend towards improvement of burns scars treated with fractional CO2 laser based on the VSS encourages further exploration of this modality as a therapeutic tool.

Incorporating Aesthetic Devices into a Dermatologic Practice.

Background: Lasers and energy-based devices allow physicians to provide quality care to patients and achieve optimal clinical results. Objective: We sought to review the benefits and drawbacks of purchasing and leasing energy-based devices and to highlight key factors that are important to consider when incorporating these devices into a practice. Methods: A PubMed search was conducted for articles on purchasing or leasing lasers and energy-based devices in dermatology. Key reports and personal commentaries on incorporating these technologies into practice are summarized in this review. Results: Energy-based devices are clinical and financial investments and can provide outstanding results for patients and result in substantial gratification for a practice. There are a variety of factors to consider when selecting specific lasers and energy-based devices. Conclusions: Capital resources, aesthetic practice values, expertise in using the device, patient demographics, location of the practice, clinic space requirements, and regulations should be considered when buying or leasing a device.

Randomized, Controlled Early Intervention of Dynamic Mode Fractional Ablative CO2 Laser on Acute Burn Injuries for Prevention of Pathological Scarring.

BACKGROUND AND OBJECTIVES: This study challenges the currently accepted treatment parameters of waiting 1 year following burn injury to treat the resultant scarring. It assesses the impact of treating burn and trauma wounds at less than 3 months of injury on scar formation, providing a new temporal paradigm to patients in the prevention and minimization of scar formation. STUDY DESIGN/MATERIALS AND METHODS: This randomized clinical trial included 19 patients with moderate-to-severe acute burn injuries less than 3 months from injury. The treatment areas underwent three fractional ablative CO2 laser treatments at 8-week intervals. The primary outcomes were improvement in the Manchester Scar Scale (MSS) and photography. Secondary outcomes were optical coherence tomography (OCT), treatment time, immediate post-treatment response, and histology. RESULTS: Upon blinded evaluation, 100% of treatment areas were correctly identified when compared with control. MSS scores before and after treatment were totaled with an averaged sum of 13.33 per scar at baseline to 8.39 after treatment, a 63% average improvement versus control (P < 0.001). Histology and OCT demonstrated a re-organization of the underlying skin structure. The average treatment time was 18 minutes. Immediate post-treatment responses were limited to mild-to-moderate erythema. CONCLUSIONS: Early intervention with ablative fractional laser on acute traumatic wounds resulted in significant decrease of scar formation compared with untreated areas on the same wounds, providing an impactful new time course to treat severe burn and trauma injuries. Lasers Surg. Med. © 2019 Wiley Periodicals, Inc.

Treatment of Hypertrophic Burn and Traumatic Scars With a 2,940-nm Fractional Ablative Erbium-doped Yttrium Aluminium Garnet Laser: A Pilot Study.

BACKGROUND: In recent years, fractional ablative lasers at low density have proven to be the centerpiece in a multimodality approach to treating hypertrophic burn scars. OBJECTIVE: To determine the safety and efficacy of fractional ablative erbium-doped yttrium aluminium garnet (Er:YAG) laser in the treatment of hypertrophic burn scars. METHODS: Eleven patients received 3 fractional ablative Er:YAG laser to hypertrophic burn scars at 400 to 800 µm, density 11%, no coagulation, and single pass at 4-week intervals. RESULTS: Overall, average improvement was noted to be 2.27 of 3 as determined by blinded observers. A significant improvement was noted in all measured parameters including dyschromia, atrophy hypertrophy, vascularity, and texture. CONCLUSION: This is a pilot study showing the safety and efficacy of fractional ablative Er:YAG laser treatment is a safe and effective treatment modality in the treatment of hypertrophic scars.

Re-pigmentation of Hypopigmentation: Fractional Lasers vs Laser-Assisted Delivery of Bimatoprost vs Epidermal Melanocyte Harvesting System

Background: Hypopigmentation is a common cutaneous manifestation that frequently poses a therapeutic challenge for dermatologists. Current treatments have varying efficacies and rarely provide patients with long-term results. However, new treatments are emerging, and head-to-head studies comparing these treatments are warranted. Methods & Materials: In this prospective, Institutional Review Board (IRB)-approved, double-blinded study, 40 subjects with moderate to severe hypopigmentation were randomized into 1 of 4 treatment arms; non-ablative fractional laser, ablative fractional laser, ablative fractional laser with laser-assisted delivered bimatoprost, and an epidermal harvesting system. Results: All patients in this study showed improvement regardless of the treatment modality. The average improvement score was calculated on a 0 to 4 scale, and Group 3 (fractional ablative laser and bimatoprost) was found to have a significantly higher average improvement than all other treatments, with 76% of the patients exhibiting at least a grade 3 (over 50%) improvement over the treatment course. Group 1 (non-ablative fractional) also had a significantly higher average score compared with group 2 (fractional ablative laser). Conclusion: New and emerging therapies have shown promise in helping re-pigmentation of cutaneous hypopigmentation. In this head-to-head trial, it was shown that laser-assisted delivery of bimatoprost had a greater statistically significant improvement compared with 3 possible treatment modalities for stimulation of pigment in medical and cosmetic hypopigmentation. J Drugs Dermatol. 2019;18(11):1090-1096.

Treatment of Hypertrophic Scars Using Laser-Assisted Corticosteroid Versus Laser-Assisted 5-Fluorouracil Delivery.

BACKGROUND: As the mortality of individuals suffering severe cutaneous injuries decreases, there is an increased need to improve the methods by which physicians treat the resultant scars. Fractional lasers, which create zones of ablation at variable depths, provide a powerful tool in the management of scar complications and deformities. After disruption of the normal skin barrier, these zones may be used to deliver drugs that may enhance scar resolution. OBJECTIVE: To determine the differences in clinical outcome for hypertrophic scars treated with laser-assisted corticosteroid delivery, as compared to laser-assisted 5-fluorouracil delivery. METHODS: In this prospective, double-blinded, single-subject study of 20 individuals with hypertrophic scars, subjects underwent 3 treatment sessions at 1-month intervals consisting of fractional ablative laser treatment, followed by postoperative application of either topical triamcinolone acetonide (20 mg/mL) or topical 5-fluorouracil (50 mg/mL). RESULTS: Three sessions of laser-assisted triamcinolone acetonide and 5-fluorouracil delivery both produced reductions in overall scar area. When compared with one another, there were no statistically significant differences in area reduction between the 2 modalities (p = .603). However, scars treated with 5-fluorouracil were not associated with side effects seen with corticosteroid therapy, such as dermal atrophy or telangiectasia formation. CONCLUSION: As 5-fluorouracil was associated with fewer adverse events, these findings support the use of a nonsteroidal agent in the management of traumatic scars by laser-assisted therapy.

The Role of IL-17 in the Human Immune System and Its Blockage as a Treatment of Rheumatoid Arthritis, Ankylosing Spondylitis, and Psoriatic Arthritis.

Interleukin 17 (IL-17) functions as a bridge between the innate and adaptive immunity. In addition to being a crucial defense mechanism against extracellular pathogens, it plays a significant role in inflammation, therefore considered a decisive factor in inflammatory conditions; hence the importance of its understanding for the treatment of autoimmune diseases. Animal models have demonstrated that blockage of the IL-17 receptor (IL-17R) may prevent these pathologies. For instance, there is evidence that IL-17R-deficient mice may be protected against the development of collagen-induced arthritis (CIA) and experimental autoimmune encephalitis (EAE). Furthermore; inflammatory disorders such as rheumatoid arthritis (RA), psoriasis, psoriatic arthritis (PSA), and ankylosing spondylitis (AS) have been associated with IL-17, and therapeutically targeting this inflammatory pathway could improve patients' outcomes. The discovery and subsequent studies of this interleukin have aided in the understanding of the immune system, and its potential therapeutic blockage provokes optimism for the treatment of these distressing conditions. J Drugs Dermatol. 2018;17(5):539-542.

Angiographic optical coherence tomography imaging of hemangiomas and port wine birthmarks.

OBJECTIVES: A current therapeutic challenge of vascular lesions is that they do not always respond effectively to laser treatment. Information on targeted vessels could potentially be used to guide laser treatments. Optical coherence tomography (OCT) is a useful tool for the non-invasive imaging of tissues, including skin hemangiomas and port wine birthmarks. Dynamic OCT is able to rapidly characterize cutaneous blood vessels. The primary goal of this study was to demonstrate the ability of bedside OCT to image (i) overall vessel pattern; (ii) individual vessel morphology, diameter and depth; and (iii) total vessel density as a function of depth in infantile hemangiomas and port wine birthmarks (PWB). MATERIALS AND METHODS: This IRB approved, observational clinical trial was performed among healthy volunteers ages 3 months-73 years old. All patients presented for laser treatment of either infantile hemangiomas or PWB with skin types ranging from Fitzpatrick I-V. OCT imaging of 49 hemangioma and PWB scans were performed pre- and post-treatment. The diameter and depth of the blood vessels making up the vascular lesions were measured. In addition, normal skin was scanned for comparison. Five datasets for infantile hemangiomas and five for PWB that were without motion artifacts were analyzed. RESULTS: Scanned lesions exhibited variable and highly heterogeneous blood vessel patterns with vessel diameters ranging from 20 to 160 µm, suggesting that the laser treatment with single pulse durations may not be optimal. The largest blood vessel diameter observed (160 µm) may not be adequately treated by commonly used pulsed dye laser pulse durations. CONCLUSION: OCT allowed rapid, non-invasive characterization of the diameter and depth of blood vessels in individual vascular lesions. Imaged lesions consisted of a heterogeneous population of vessel sizes, morphologies, and depth. Future studies could utilize this information to assist development of individualized treatment protocols in an effort to improve vascular birthmark removal. Lasers Surg. Med. © 2018 Wiley Periodicals, Inc.

Laser Modulation of Hypertrophic Scars: Technique and Practice.

In this review, the authors discuss the use of laser photothermolysis and laser resurfacing in the management of hypertrophic burn scars. They provide details regarding preoperative selection, intraoperative decision making, and postoperative care.

Update of Ablative Fractionated Lasers to Enhance Cutaneous Topical Drug Delivery.

Ablative fractional lasers (AFXL) enhance uptake of therapeutics and this newly emerging field is called laser-assisted drug delivery (LAD). This new science has emerged over the past decade and is finding its way into clinical practice. LAD is poised to change how medicine delivers drugs. Topical and systemic application of pharmaceutical agents for therapeutic effect is an integral part of medicine. With topical therapy, the stratum corneum barrier of the skin impairs the ability of drugs to enter the body. The purpose of LAD is to alter the stratum corneum, epidermis, and dermis to facilitate increased penetration of a drug, device, or cell to its respected target. AFXL represents an innovative, non-invasive strategy to overcome the epidermal barrier. LAD employs three steps: (1) breakdown of the skin barrier with a laser, (2) optional use a laser for a therapeutic effect, (3) delivery of the medicine through laser channels to further enhance the therapeutic effect. The advantages of using lasers for drug delivery include the ease of accessibility, the non-invasive aspect, and its effectiveness. By changing the laser settings, one may use LAD to have a drug remain locally within the skin or to have systemic delivery. Many drugs are not intended for use in the dermis and so it has yet to be determined which drugs are appropriate for this technique. It appears this developing technology has the ability to be a new delivery system for both localized and systemic delivery of drugs, cells, and other molecules. With responsible development AFXL-assisted drug delivery may become a new important part of medicine.