The interaction between hyaluronidase and hyaluronic acid gel fillers - a review of the literature and comparative analysis

Paap, Michael K; Silkiss, Rona Z.

doi:10.20517/2347-9264.2020.121

Cited by 25 publications

(27 citation statements)

References 24 publications

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“…Also, no consensus was established on which type of hyaluronidase is most superior in dissolving HA fillers. 17 A blind randomized study on the reversal of HA filler injection had demonstrated comparable efficacy between the use of 20 and 40 U ovine hyaluronidase in reducing the volume of 0.2 mL HA filler bolus implants based on significantly lower palpation scores compared to non-treated and saline-treated HA filler implants. The study also reported that identical treatments of ovine hyaluronidase showed no clinically significant difference in HA filler volume reduction among different filler implants from three major HA filler manufacturers, despite variability in cohesive properties, HA content and degree of crosslinking.…”

Section: Discussionmentioning

confidence: 98%

“…The Juvéderm family of products (AbbVie/ Allergan) uses their proprietary "Hylacross" and "Vycross" technology to manufacture monophasic HA fillers, whereas the Restylane family of products (Galderma) manufacture their biphasic HA dermal fillers using their proprietary non-animal stabilized HA (NASHA) and more recently, "XpresHAn" technology. [15][16][17] Another series of BDDE-crosslinked HA dermal fillers was recently introduced in South Korea. The Neuramis family of products (NEU series, Medytox, Inc.) are monophasic HA dermal fillers manufactured using stabilized HA through purification and enhancement (SHAPE) technology, generating products with varying degree of crosslinking to suit specific clinical indication.…”

Section: Introductionmentioning

confidence: 99%

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Comparative Analysis of Hyaluronidase-Mediated Degradation Among Seven Hyaluronic Acid Fillers in Hairless Mice

Kwak¹,

Yoon²,

Kwon³

et al. 2021

CCID

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Purpose Hyaluronic acid (HA) is the most common injectable dermal filler used for soft-tissue augmentation, and can be removed non-surgically by directly injecting hyaluronidase. In this study, the hyaluronidase-mediated degradation of different types of HA fillers implanted subcutaneously at the back of hairless mice having filler residence time of four days or three months were compared. Methods Two sites at the back of female hairless mice were subcutaneously implanted with 0.1-mL of one of the seven HA fillers (NLL, NL, NDL, NVL, and ND, JUV X+ , and RES LYFT ) and injected with 30 IU or 60 IU hyaluronidase per 0.1-mL filler after reaching a filler residence time of 4 or 91 days, respectively. Filler bolus projection was measured using three-dimensional optical imaging over a 72 h period, and the implantation sites were histologically examined 2 weeks after hyaluronidase injection. Results Following hyaluronidase injection, all seven HA fillers showed a rapid decrease of filler volume within 24 h, and complete degradation was confirmed by histological examination after 2 weeks. There was no significant difference in filler volume reduction rate among the seven HA fillers, and no evidence of macroscopic or microscopic adverse effects were observed at the implantation sites. Conclusion All seven HA fillers show comparable susceptibility to hyaluronidase-mediated degradation. HA fillers with prolonged filler residence time may require a higher dose of hyaluronidase to achieve efficient degradation owing to tissue integration.

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Section: Discussionmentioning

confidence: 98%

Section: Introductionmentioning

confidence: 99%

Comparative Analysis of Hyaluronidase-Mediated Degradation Among Seven Hyaluronic Acid Fillers in Hairless Mice

Kwak¹,

Yoon²,

Kwon³

et al. 2021

CCID

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“…All HA dermal fillers in the NEU series are manufactured as having a mono-phasic gel phase similar to BEL fillers, 40–42 and is very distinct from the bi-phasic gel phase of RES fillers. 42 , 43 Mono-phasic HA dermal fillers consist of a mixture of high- and low-molecular weight HA, 15 , 19 whereas bi-phasic HA dermal fillers consist of cross-linked HA admixed with non-crosslinked HA. 44 Mono-phasic fillers have been reported to show higher cohesivity (ie, higher affinity between the gel molecules) and lower viscoelasticity than bi-phasic fillers.…”

Section: Discussionmentioning

confidence: 99%

Comparative Analyses of Inflammatory Response and Tissue Integration of 14 Hyaluronic Acid-Based Fillers in Mini Pigs

Choi¹,

Kwak²,

Kim³

et al. 2021

CCID

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“…Many factors can explain these differences: HA concentration, molecular weight, crosslinking technology and amount of free HA present in the final product 23,29 . Many authors report crosslinking density as the factor with the greatest influence on the rheological properties, specifically the stiffness of the gel 25,30,31 …”

Section: Methods Currently Used To Characterize Ha Dermal Fillersmentioning

confidence: 99%

Evaluating hyaluronic acid dermal fillers: A critique of current characterization methods

Wongprasert

Dreiss

Murray

2022

Dermatologic Therapy

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Soft-tissue augmentation has gained much popularity in recent years. Hyaluronic acid (HA) based dermal fillers; a non-permanent injectable device, can restore volume loss, fill fine lines and wrinkles and add curves and contours. HA based dermal fillers entered the non-surgical treatment market in the late 1990s, however there is a lack of data and literature comparing the range of products and detailing the complexities of these products and how it relates to tissue performance. Measuring the physicochemical properties of these dermal fillers provide key parameters to predict their performance after injection into the body. This article reviews the currently reported methods and parameters used to characterize dermal fillers. The review of these methods and data from the literature provides a useful guide to clinicians and injectors in selecting the optimal product suitable for the needs of each patient.

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The interaction between hyaluronidase and hyaluronic acid gel fillers - a review of the literature and comparative analysis

Cited by 25 publications

References 24 publications

Comparative Analysis of Hyaluronidase-Mediated Degradation Among Seven Hyaluronic Acid Fillers in Hairless Mice

Comparative Analysis of Hyaluronidase-Mediated Degradation Among Seven Hyaluronic Acid Fillers in Hairless Mice

Comparative Analyses of Inflammatory Response and Tissue Integration of 14 Hyaluronic Acid-Based Fillers in Mini Pigs

Evaluating hyaluronic acid dermal fillers: A critique of current characterization methods

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