Background While ablative techniques have been standard of care for the treatment of fine lines and wrinkles, microneedling is a minimally invasive alternative. Objectives The purpose of this study was to assess the efficacy of microneedling on facial and neck fine lines and wrinkles. Methods 35 subjects between 44 and 65 years old with Fitzpatrick skin types I-IV received four monthly microneedling treatments over the face and neck. Subjects returned one and three months post-treatment. At every visit, high-resolution ultrasonography, optical coherence tomography, transepidermal water loss and BTC-2000 were performed. 0.33mm microbiopsies were collected pre-treatment, before the fourth treatment and three months post-treatment. Results 32 subjects (93.75% female, 6.25% male) completed all seven visits. Facial dermal and epidermal density increased 101.86% and 19.28%, respectively from baseline at three months post-treatment. Facial elasticity increased 28.2% from baseline three months post-treatment. Facial attenuation coefficient increased 15.65% and 17.33% one and three months post-treatment. At study completion, blood flow 300µm deep decreased 25.8% in the face and 42.3% in the neck. Relative collagen type III and elastin gene expression was statistically higher three months post-treatment. However, total elastin protein levels unchanged compared to baseline. 58% of biopsies extracted three months post-treatment showed dermal muscle formation, compared to baseline 15.3%. Conclusions The results illustrate the effects of microneedling treatments. Non-invasive measurements and biopsy data showed changes in skin architecture and collagen/elastin gene expression suggesting skin rejuvenation, with new extracellular matrix production and muscle formation.
Background and Objective: Patient-reported outcomes and blinded observer rating scales are subjective and unreliable but are extensively utilized to evaluate cosmetic office-based treatments, including ablative lasers. This study aims to assess the practicality of using noninvasive and minimally invasive methods for objective skin assessment following a skin rejuvenation treatment. Study Design/Materials and Methods: Twelve patients received a single 1,470/2,940 nm laser treatment for facial rejuvenation. Assessments were performed before treatment, and 7 days, 3 weeks, and 3 months posttreatment. Images were taken with the VISIA Skin Analysis System to measure wrinkles, textures, pores, ultraviolet (UV) spots, brown spots, red areas, and porphyrins. Other non-invasive skin measurements-highresolution ultrasonography, optical coherence tomography, transepidermal water loss and BTC 2000-were used to measure epidermal/dermal thickness, blood flow, surface roughness, wrinkle depth, attenuation coefficient, elasticity, laxity, and viscoelasticity. Microbiopsies (0.33 mm in diameter or the equivalent of a 23-gauge needle) were collected for histology and gene expression of tissue rejuvenation. Results: Significant improvement in facial skin aesthetics after laser treatment was recorded in UV spots, brown spots and pores after 3 weeks and in UV spots and brown spots after 3 months. The dermal attenuation coefficient decreased significantly at 3 weeks, while blood flow 0.5 to 0.7 mm below the skin surface increased significantly between 5 days and 3 weeks following treatment. Epidermal hyaluronic acid expression assessed by immunostaining and expression of inflammatory genes were elevated at 7 days posttreatment compared with untreated or 3 months posttreatment. There were no statistically significant changes in collagen or elastin-related genes between groups at the studied parameters. Conclusion: Non-invasive devices can be effectively used to provide objective measurements of skin structure, pigmentation, blood flow, and elasticity to assess the efficacy of facial skin rejuvenation treatments. Furthermore, microbiopsies can objectively evaluate facial skin rejuvenation without scarring. Using non-invasive skin imaging, a single treatment with the 1,470/2,940 nm laser was observed to be effective in improving skin appearance after 3 months, namely in reducing UV spots and brown spots, without significant changes in the tissue at the molecular level, as assessed by microbiopsy. Lasers Surg.
Background Despite the proven efficacy of liposuction, there is a population of patients who prefer non-surgical alternatives. Laser hyperthermia-induced lipolysis has emerged as one non-invasive alternative to liposuction. Objectives The authors sought to evaluate the safety and efficacy of a 1060-nm (±10 nm) diode laser for non-invasive fat reduction of the abdomen. Methods This single-arm, 2-center study enrolled 30 patients. Patients received a 25-minute 1060-nm diode laser treatment on their abdomen. Ultrasound adipose measurements, body weight, and circumference were taken at baseline and at 6- and 12-week follow-up visits. Blinded evaluators identified “before” and “after” photos of each patient. A patient satisfaction questionnaire was completed by each patient at study exit. Results A total 29 patients completed all treatment and follow-up visits. Ultrasound images showed an adipose reduction of 8.55% at 12 weeks post-treatment (P < 0.0001). Blinded evaluators correctly identified 67% of the pre- and post-treatment images at site 01 (Sacramento, CA) and 56% at site 02 (Dallas, TX). Satisfaction was high, with 72% of patients reporting being either “satisfied” or “very satisfied” with their results on a 5-point Likert scale. Pain was rated as mild by 62% of patients, moderate by 38%, and severe by none on the Wong-Baker Scale. Conclusions These results indicate that a single treatment with a 1060-nm (±10 nm) diode laser, per the treatment protocol, is safe and effective in reducing unwanted fat in the abdomen as objectively measured employing ultrasound. The treatment was well-tolerated among all patients, with minimal discomfort reported and high patient satisfaction. Level of Evidence: 4
Assessments of non‐surgical office‐based aesthetic treatments' efficacy including lasers are mostly based on subjective evaluation of clinical photography. Accumulating evidence suggest that non‐invasive skin imaging such as optical coherence tomography (OCT) can be effectively used to assess not only the skin surface but also the underlying epidermis and dermis, providing objective and clinically relevant data. In this review, we highlight the potential of OCT imaging for the aesthetic medicine field along with OCT measurement parameters and their clinical relevance to healthy and pathological skin conditions. Lasers Surg. Med. © 2020 Wiley Periodicals, Inc.
Background: Patients increasingly use photographs taken with a front-facing smartphone camera—“selfies”—to discuss their goals with a plastic surgeon. The purpose of this study was to quantify changes in size and perception of facial features when taking a selfie compared to the gold standard of clinical photography. Methods: Thirty volunteers took three series of photographs. A 12-inch and 18-inch series were taken with a front-facing smartphone camera, and the 5-foot clinical photography series was taken with a digital single-lens reflex camera. Afterward, subjects filled out the FACE-Q inventory, once when viewing their 12-inch selfies and once when viewing their clinical photographs. Measurements were taken of the nose, lip, chin, and facial width. Results: Nasal length was, on average, 6.4 percent longer in 12-inch selfies compared to clinical photography, and 4.3 percent longer in 18-inch selfies compared to clinical photography. The alar base width did not change significantly in either set of selfies compared to clinical photography. The alar base to facial width ratio represents the size of the nose in relation to the face. This ratio decreased 10.8 percent when comparing 12-inch selfies to clinical photography (p < 0.0001) and decreased 7.8 percent when comparing 18-inch selfies to clinical photography (p < 0.0001). Conclusions: This study quantifies the change in facial feature size/perception seen in previous camera-to-subject distance studies. With the increasing popularity of front-facing smartphone photographs, these data allow for a more precise conversation between the surgeon and the patient. In addition, the authors’ findings provide data for manufacturers to improve the societal impact of smartphone cameras. CLINICAL QUESTION/LEVEL OF EVIDENCE: Diagnostic, III.
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