BACKGROUND
Hyaluronic acid (HA) based fillers have gained increasing popularity in cosmetic facial augmentation over the past decade.1 HA fillers are currently the most commonly used facial fillers, accounting for over 1.4 million procedures in 2012.1 The benefits of HA fillers include ease, avoidance of incisional surgery, versatility, relatively instantaneous results, and overall safety.2,3 Nonetheless, as with any pharmacologic agent, complications can occur.2,4–7 Complications of HA fillers that have been reported include: excessively superficial filler placement5; allergy or hypersensitivity4; granulomatous nodules5,8; undesired persistence9; and rarely, focal necrosis.6 Better control of such complications is important for patient satisfaction, especially considering HA fillers are typically used on an elective and aesthetic basis.
HA is a naturally occurring glycosaminoglycan disaccharide present in skin, joint synovia, cartilage, and vitreous.10 For its use as a dermal filler, HA is chemically cross-linked to achieve the manufacturer's desired composition, which determines the filler's structure, longevity, and other properties.11 The properties of HA are adjusted in the manufacturing of different commercially available HA fillers, leading to their differing structural properties. These varying properties may inform clinicians as to which HA filler would be most appropriate for a specific clinical use. For example, a more highly cross-linked HA filler would likely be resilient
in its ability to hold its form, making it suitable for the correction of deep wrinkles. Additionally, a more monophasic filler might cleanly retain its form and clinically have a smoother appearance.
Hyaluronidase is a naturally occurring enzyme capable of local degradation of hyaluronic acid, thereby providing a means for correction or alteration of injected fillers. It is FDA approved as a temporary dispersion agent for injectable fluids, typically local anesthetics during retrobulbar blocks.12 It has been used clinically for over 60 years.13–15 In the event of complications with HA fillers, hyaluronidase has been used in attempt to reverse HA fillers.8,16 Hyaluronidase hydrolyzes hyaluronic acid by splitting the bond between C1 of an N-actylglucosamine moiety and C4 of a glucuronic acid moiety.12 It is FDA approved as an agent to increase tissue permeability to facilitate subcutaneous hydration, drug dispersion, and reabsorption of radiopaque dyes so its use to reverse HA fillers is off-label. Different formulations of hyaluronidase are available, including a human recombinant agent12 and an ovine agent.17
Because of their differing structures and properties, various available HA fillers likely interact differently with hyaluronidase. If planning to use hyaluronidase to reverse HA fillers, it is therefore important to optimize our understanding of the interactions between hyaluronidase and the respective filler. Better such
