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.
Background and Objectives: Scar rehabilitation is a complex process that incorporates medical, surgical, and physical therapeutic measures to best restore function and visual normalcy. Lasers have emerged as essential tools in the management of scars, with devices available to address scar size, dyschromia, and contour irregularities. As different lasers treat these different features, multi-laser, same session therapeutic approaches may offer a more comprehensive approach to scar revision. In this study, we aim to demonstrate the effect of a combinatorial, same session treatment with intense pulsed light (IPL) and fractional ablative CO 2 as compared to single laser treatment with fractional ablative CO 2 laser alone or control in the treatment of mature hypertrophic scars. Materials and Methods: This institutional review board-approved, randomized controlled trial, enrolled 23 healthy adults with large (>100 cm 2 ) hypertrophic scars who were randomized to one of three treatment arms: (i) IPL and CO 2 ablative fractional laser (AFL), (ii) CO 2 AFL alone, and (iii) control (no laser treatment). Subjects underwent a total of four treatment sessions at 6-8-week intervals with follow-up visits at 1, 3, and 6 months following the last treatment session. Primary endpoints included blinded scoring of before and after photographs via the Manchester Scar Scale (MSS). Secondary endpoints included the Patient-Observer Scar Assessment Scale (POSAS). Results: As compared to control and CO 2 AFL laser alone, the combination of CO 2 AFL and IPL demonstrated statistically significant improvement across a greater number of scar domains, as assessed by the MSS. 100% of subjects in both treatment groups showed a statistically significant decrease in the POSAS scale after the series of four treatment sessions. No adverse events were reported. Conclusion: Treatment with combined IPL and CO 2 AFL demonstrated higher average improvements across the majority of assessed scar domains, as compared to both control and CO 2 laser alone. The difference was not statistically significant in overall MSS score as expected due to the role of CO 2 as the main source of improvement. However, only the combination group had statistically significant improvement in both color and texture. These findings support the assertion that a multi-photo-thermolytic approach with combined IPL and CO 2 AFL can have a positive impact on the treatment of hypertrophic scars by using multiple wavelengths to maximize laser-skin interactions in targeting the different chromophores expressed in scar tissue. Lasers Surg. Med.
Soft tissue hemangiomas are commonly encountered lesions, accounting for 7-10 % of all benign soft tissue masses (Mitsionis et al. J Foot Ankle Surg 16(2):27-9, 2010). While the literature describes the great majority of hemangiomas as asymptomatic and discovered only as incidental findings, they do have the potential to induce reactive changes in neighboring structures (Pastushyn et al. Surg Neurol 50(6):535-47, 1998). When these variants occur in close proximity to bone, they may elicit a number of well-documented reactive changes in osseous tissue (Mitsionis et al. J Foot Ankle Surg 16(2):27-9, 2010; DeFilippo et al. Skelet Radiol 25(2):174-7, 1996; Ly et al. AJR Am J Roentgenol 180(6):1695-700, 2003; Sung et al. Skelet Radiol 27(4):205-10, 1998). However, instances of direct extension into bone by soft tissue hemangiomas--that is, infiltration of the mass's vascular components into nearby osseous tissue--are currently undocumented in the literature. In these cases, imaging plays an important role in differentiating hemangiomas from malignant lesions (Mitsionis et al. J Foot Ankle Surg 16(2):27-9, 2010; Sung et al. Skelet Radiol 27(4):205-10, 1998; Pourbagher, Br J Radiol 84(1008):1100-8, 2011). In this article, we present such a case that involved the sacral spine. Imaging revealed a soft tissue mass with direct extension of vascular components into osseous tissue of the adjacent sacral vertebrae. Biopsy and subsequent histopathologic examination led to definitive diagnosis of soft tissue hemangioma. While MRI is widely regarded as the gold standard imaging modality for evaluating hemangiomas, in this report we describe how CT can aid in narrowing the differential diagnosis when one encounters a vascular lesion with adjacent osseous changes. Furthermore, we review the literature as it pertains to the imaging of soft tissue hemangiomas that occur in proximity to osseous tissue, as well as correlate this case to current theories on the pathogenesis of hemangiomas. Radiologists should be aware that benign soft tissue hemangiomas demonstrate a spectrum of imaging findings, including aggressive-appearing changes to adjacent bone.
Since the approval of the United States’ first hyaluronic acid (HA) filler in December 2003, HA fillers have become mainstays of soft tissue augmentation due to their favorable safety profile and minimally invasive treatment nature. The past two decades have not only brought an expansion in the popularity of HA fillers, but also in the number of available HA filler products and indications for cosmetic enhancement. Accordingly, HA filler injection has become one of the most commonly performed cosmetic procedures worldwide. The progression of HA filler products is a study in both biomedical engineering advancements, as well as evolving concepts of beauty and cosmesis. In this chapter, we review the history of these products, including their composition and indications for use. We then explore the prospect of HA fillers for the future of esthetic medicine, as they remain a vital component of nonsurgical soft tissue augmentation.
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