Wrinkle

Abstract: Background Bovine collagen is extensively used for facial soft tissue augmentation but provides only temporary correction and can cause hypersensitivity reactions. Hyaluronic acid derivatives potentially offer improved longevity of correction and a reduced risk of immunogenicity and hypersensitivity. Objective To compare the efficacy and safety of nonanimal stabilized hyaluronic acid gel (Restylane; Q-Med, Uppsala, Sweden) with that of bovine collagen (Zyplast) for treatment of nasolabial folds. Methods One hundred thirty-eight patients with prominent nasolabial folds were randomized to treatment with hyaluronic acid gel and bovine collagen on contralateral sides of the face. Treatments were repeated at 2-week intervals, as required, to achieve "optimal cosmetic result" (baseline). Outcomes were evaluated by a blinded investigator at 2, 4, and 6 months after baseline. Results Less injection volume was required for "optimal cosmetic result" with hyaluronic acid gel than with bovine collagen, and patients and investigators judged hyaluronic acid gel to be more effective in maintaining cosmetic correction. The investigator-based Wrinkle Severity Rating Scale and Global Aesthetic Improvement Scale assessments at 6 months after baseline indicated that hyaluronic acid gel was superior in 56.9% and 62.0% of patients, respectively, whereas bovine collagen was superior in 9.5% and 8.0% of patients, respectively. The frequency, intensity, and duration of local injection-site reactions were similar for the two products. Conclusion Nonanimal stabilized hyaluronic acid provides a more durable aesthetic improvement than bovine collagen and is well tolerated.

Abstract: Background and Design: Public demand for procedures to rejuvenate photoaged skin have stimulated the use of high-energy short-pulsed carbon dioxide lasers as a precise and predictable treatment modality. The purpose of this study was to determine the degree of clinical improvement achieved in treating perioral and periorbital wrinkles with a high-energy, microseconddomain pulsed CO2laser. Photodamaged skin in the perioral (n=73) and periorbital (n=38) regions was treated with multiple passes of confluent single pulses of CO2laser energy (10 600 nm, 3-mm collimated beam, Results: All three classes (mild, moderate, and severe) of photoaging of the skin responded equally well, showing an average wrinkling score reduction of 2.25 for the periorbital region and 2.34 for the perioral region, the most superficial wrinkles and photodamage being eliminated and the more severe being markedly improved. An unexpected finding was tightening of loose and folded skin. Side effects included transient erythema and postinflammatory hyperpigmentation, and one instance of an isolated hypertrophic scar. Conclusions: Resurfacing of photoaged skin by means of a high-energy, microsecond-domain pulsed CO2laser with a specific clinical treatment protocol results in predictable improvement in perioral and periorbital wrinkling and photodamage with minimal risks. Heatinduced collagen shrinkage appears to contribute to these results by tightening loose skin and folds. (Arch Dermatol. 1996;132:395-402)

Abstract: Systems and methods are provided for selectively applying electrical energy to a target location on an external body surface, such as skin tissue removal and/or collagen shrinkage in the epidermis or dermis, e.g., the removal of pigmentations, vascular lesions (e.g., leg veins), scars, tattoos, etc., and for other surgical procedures on the skin, such as tissue rejuvenation, cosmetic surgery, wrinkle removal, hair removal and/or transplant procedures. The present invention applies high frequency (RF) electrical energy to one or more electrode terminals adjacent an external body surface, such as the outer surface of the skin, to remove and/or modify the structure of tissue structures within the skin. Depending on the specific cosmetic procedure, the present invention may be used to: (1) volumetrically remove tissue or hair (i.e., ablate or effect molecular dissociation of the tissue structure); (2) separate a tissue layer from an underlying tissue layer so that the tissue layer can be removed; (3) shrink or contract collagen connective tissue; and/or (4) coagulate blood vessels underlying the surface of the skin.

Abstract: Intrinsic (chronological) skin ageing is characterized by atrophy of the skin with loss of elasticity and slowed metabolic activity. The superposition of environmental damage, particularly exposure to ultraviolet radiation (photodamage), on the intrinsic ageing process results, at least initially, in a hypertrophic repair response, with a thickened epidermis and increased melanogenesis. Even more striking changes occur in the dermis: massive elastosis (deposition of abnormal elastic fibres), collagen degeneration, and twisted, dilated microvasculature. Regular use of a sunscreen alone appears to allow some repair as well as protection from further photodamage. Topical tretinoin has been shown to partially reverse the clinical and histological changes induced by the combination of sunlight exposure and chronological ageing. A formulation of tretinoin in an emollient cream (Retinova, Renova), developed specifically for the treatment of photodamaged skin, has been extensively investigated in multicentre, double-blind trials and has been shown to produce significant improvement within 4-6 months of daily use, compared with vehicle alone, as part of a regimen including sun protection and moisturizer use. Histological changes in the epidermis and dermis noted after 12 months suggest tretinoin repairs photodamage by reconstitution of the rete pegs, repair of keratinocyte ultrastructural damage, more even distribution of melanocytes and melanin pigment, deposition of new papillary dermal collagen, and improvements in vasculature. Alpha-hydroxy acids (AHAs) have also been widely used for therapy of photodamaged skin, and these compounds have been reported to normalize hyperkeratinization and increase viable epidermal thickness and dermal glycosaminoglycans content. The single randomized controlled study now available appears to substantiate AHA efficacy and safety. In summary, recent work has substantially elucidated the ageing processes that affect the skin and has demonstrated that many of the unwanted changes can be improved by topical therapy.