Polymeric injectable fillers for cosmetology: Current status, future trends, and regulatory perspectives

Zhao, Peng; Zhao, Wanlu; Zhang, Kai; Lin, Hai; Zhang, Xingdong

doi:10.1002/app.48515

Cited by 18 publications

(14 citation statements)

References 72 publications

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“…This is particularly important for the clinical translation of hydrogel‐based carriers, implants, and devices, where the selection of the hydrogel base material, hydrogelation mechanism, and trigger are all highly dependent on the envisaged application and route of administration. Many hydrogel products have reached the market, [ 279 ] as part of surgical sealants (e.g., COSEAL, EVICEL fibrin sealant, or ReSURE ocular sealant), [ 280 ] wound dressings (e.g., Granugel), [ 281 ] antibacterial coatings (e.g., DAC), [ 282 ] dermal fillers (e.g., Restylane), [ 283 ] and cartilage repair matrices (e.g., CaReS). [ 284 ] Meanwhile, ongoing and future clinical trials are testing injectable hydrogel formulations for the treatment of knee osteoarthritis [ 285,286 ] and cartilage defects, [ 287 ] antibiotic‐loaded hydrogel coatings for hip implants, [ 288 ] and tissue‐marking hydrogels for radiotherapy.…”

Section: Discussionmentioning

confidence: 99%

Tailoring Gelation Mechanisms for Advanced Hydrogel Applications

Nele

Wojciechowski

Armstrong

et al. 2020

Adv Funct Materials

211

100

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Hydrogels are one of the most commonly explored classes of biomaterials. Their chemical and structural versatility has enabled their use across a wide range of applications, including tissue engineering, drug delivery, and cell culture. Hydrogels form upon a sol-gel transition, which can be elicited by different triggers designed to enable precise control over hydrogelation kinetics and hydrogel structure. The chosen hydrogelation trigger and chemistry can have a profound effect on the success of the targeted application. In this Progress Report, a critical overview of recent advances in hydrogel design is presented, with a focus on the available strategies used to trigger the formation of hydrogel networks (e.g., temperature, light, ultrasound). These triggers are presented within a new classification system, and their suitability for six key hydrogel-based applications is assessed. This Progress Report is intended to guide trigger selection for new hydrogel applications and inspire the rational design of new hydrogelation trigger mechanisms.

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Section: Discussionmentioning

confidence: 99%

Tailoring Gelation Mechanisms for Advanced Hydrogel Applications

Nele

Wojciechowski

Armstrong

et al. 2020

Adv Funct Materials

211

100

View full text Add to dashboard Cite

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“…Silicone was also banned by the FDA for use as a dermal filler due to similar ensuing complications. 5 Despite this, use of these materials may occur especially by unlicensed providers due to lack of familiarity or experience, minimal regulation, or decreased cost, which may result in increased risk of severe patient complications that may be further exacerbated by poor knowledge of anatomy and injection technique, lack of sterile environments, and lack of patient follow-up after injection. Seok et al reported 3 cases of delayed inflammatory reactions following filler injection of an unknown material by unlicensed practitioners, with patients presenting with localized erythema and edema that waxed and waned despite oral immunosuppressants and antihistamines.…”

Section: Discussionmentioning

confidence: 99%

Recurrent Periorbital Edema Associated With Retained Foreign Body After Filler Injection

Shoji

Maeng

Khzam

et al. 2022

Ophthalmic Plastic &Amp; Reconstructive Surgery

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A 34-year-old man presented with recurrent bilateral periorbital swelling and pain for 16 years after receiving facial fillers of an unknown substance in a hotel room from a stranger claiming to work in a medical office. Exam demonstrated a firm, mildly tender nodule along the right upper cheek. Imaging revealed a tubular hyperdensity in the right premaxillary soft tissues. Lower eyelid and upper cheek dissection resulted in retrieval of a tubular metallic foreign body consistent with a needle. Histopathology of surrounding tissue demonstrated iron deposition with granulomatous inflammation. Periocular fillers are a common aesthetic procedure. Although generally well-tolerated, complications include inflammatory reactions, infection, necrosis, and vision loss. This case highlights retention of a metallic foreign body, a complication of filler injection that has not been previously reported, emphasizing the importance of careful injection technique by licensed professionals and imaging and surgical exploration if a foreign body is suspected. FIG. 1. Frontal (A) and oblique view (B) clinical photograph of the patient. The exam is notable for bilateral lower eyelid scars in the region of previous surgical exploration and a nodular density on the right upper cheek that was tender to palpation.

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“…Biomaterials have been applied in the medical cosmetology for many years, such as filler materials and cosmetics. Filler materials can be injected in facial tissue to achieve facial rejuvenation, which requires safe and easy-to-operate biomaterials [ 324 ]. A few polymer materials have been developed for facial injection, such as polyacrylamide, hyaluronic acid, PLA and PLGA.…”

Section: Applications Of Biomaterials In Tissue Regenerationmentioning

confidence: 99%

Recent advances in regenerative biomaterials

Cao

Ding

2022

Regenerative Biomaterials

116

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Nowadays, biomaterials have evolved from the inert supports or functional substitutes, to the bioactive materials able to trigger or promote the regenerative potential of tissues. The interdisciplinary progress has broadened the definition of “biomaterials”, and a typical new insight is the concept of tissue induction biomaterials. The term “regenerative biomaterials” and thus the contents of the present paper are relevant to yet beyond tissue induction biomaterials. This review summarizes the recent progress of medical materials including metals, ceramics, hydrogels, other polymers, and bio-derived materials. As the application aspects are concerned, this paper introduces regenerative biomaterials for bone and cartilage regeneration, cardiovascular repair, three dimensional bioprinting, wound healing, and medical cosmetology. Cell-biomaterial interactions are highlighted. Since the global pandemic of COVID-19, the review particularly mentions biomaterials for public health emergency. In the last section, perspectives are suggested: (1) Creation of new materials is the source of innovation; (2) Modification of existing materials is an effective strategy for performance improvement; (3) Biomaterial degradation and tissue regeneration are required to be harmonious with each other; (4) Host responses can significantly influence the clinical outcomes; (5) The long-term outcomes should be paid more attention to; (6) The non-invasive approaches for monitoring in vivo dynamic evolution are required to be developed; (7) Public health emergencies call for more research & development of biomaterials; (8) Clinical translation needs to be pushed forward in a full-chain way. In the future, more new insights are expected to be shed into the brilliant field — regenerative biomaterials.

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Polymeric injectable fillers for cosmetology: Current status, future trends, and regulatory perspectives

Cited by 18 publications

References 72 publications

Tailoring Gelation Mechanisms for Advanced Hydrogel Applications

Tailoring Gelation Mechanisms for Advanced Hydrogel Applications

Recurrent Periorbital Edema Associated With Retained Foreign Body After Filler Injection

Recent advances in regenerative biomaterials

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