Variable Energy and Ultrasound–based Liposculpture of the Arms: Multicenter and Multidevice Study

Summary:. Incorporation of new technologies to assist the liposuction procedure is becoming increasingly common. These technologies allow for a softer technique, balanced shaping, elimination of excess adipose tissue, and skin tightening. Some of these technologies include ultrasound (US; US-assisted liposculpture, VASER-assisted liposuction), power suction (power-assisted liposuction), radiofrequency (RF; RF-assisted lipolysis), and laser (laser-assisted liposuction). In addition, some of these devices have been shown to reduce the incidence of hematomas/inflammation and shorten recovery time. We report our experience in high-definition liposculpture of the arms in addition to new technologies to improve skin retraction, comparing their results in terms of complications, satisfaction score, and aesthetic outcomes. We included patients with mild-to-moderate arm dermatochalasis (Duncan classification) fat deposits in the upper extremities who were considered candidates for third-generation US-assisted liposculpture, power-assisted liposuction, RF-assisted lipolysis/skin tightening, and laser-assisted liposuction. A total of 683 consecutive patients met the inclusion criteria for the study. Most of them were women (n = 605, 88%). Fat grafting was performed in 80 patients (11.7%). A significant portion of the patients were secondary cases (n = 223, 33%). Age ranged from 18 to 70 years (median = 38 years). BMI ranged from 17.8 to 34.8 kg/m2 (mean = 24.3 kg/m2). RF-assisted and laser-assisted high-definition liposculpture of the arms are both effective and reproducible techniques for patients who seek an athletic and slim arm contour. A low rate of complications and high satisfaction index support our findings

Effects of Bipolar Radiofrequency on Collagen Synthesis from Patients with Brachial Ptosis

Background:. Radiofrequency is frequently used for skin rejuvenation, localized fat elimination and cellulite treatment. It prompts the expression of thermal shock proteins that lead to dermal thickening as a result of collagen synthesis. The authors report a histological and clinical analysis of the arm subdermal changes before and after bipolar radiofrequency treatment plus liposuction to determine their benefits for arm contouring. Methods:. Inclusion criteria included patients with stage 1, 2a, and 2b brachial ptosis (Duncan classification) and upper limb fat deposits who were considered candidates for third-generation ultrasound-assisted liposculpture plus radiofrequency-assisted lipolysis/skin tightening. Arm subdermal tissue samples (5 mm³) were analyzed before and after the intervention. We used 10% formaldehyde for tissue fixation and stained each sample with hematoxylin/eosin, Masson trichrome, and antibody markers against the cell cycle Ki-67 protein. Results:. We analyzed a total of 12 biopsies from six patients who meet the inclusion/exclusion criteria. Histological findings with hematoxylin/eosin revealed hyperplastic and metaplastic changes with focal distribution within the papillary and reticular dermis. Masson trichrome staining showed an increase of the characteristic basophilia of thin type-I and type-III collagen fibers. In contrast, molecular analysis reported an increase in fibroblast activity mediated by the activation of the heat shock protein HSP47. Conclusion:. Radiofrequency may be a great alternative to improve skin retraction in patients with mild to moderate brachial dermatochalasis through the activation of HSP47 heat shock protein and the production of type-I and type-III collagen