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Injectable fillers: current status, physicochemical properties, function mechanism, and perspectives

Jiahong Guo, Wei Fang, Feifei Wang

2023RSC Advances91 citationsDOIOpen Access PDF

Abstract

With the increasing understanding of the aging process and growing desire for minimally invasive treatments, injectable fillers have great potential for correcting and rejuvenating facial wrinkles/folds and contouring the face. However, considering the increasing availability of multiple soft tissue fillers, it is important to understand their inherent biophysical features and specific mechanism. Thus, in this review, we aim to provide an update on the current injectable filler products and analyze and compare their critical physicochemical properties and function mechanisms for volume-filling. Additionally, future trends and development processes for injectable fillers are also proposed.

Topics & Concepts

Mechanism (biology)FabricationFunction (biology)NanotechnologyLongevityMaterials scienceMedicinePhysicsBiologyPathologyQuantum mechanicsGerontologyEvolutionary biologyAlternative medicineFacial Rejuvenation and Surgery TechniquesDermatologic Treatments and ResearchReconstructive Facial Surgery Techniques
Injectable fillers: current status, physicochemical properties, function mechanism, and perspectives | Litcius