Biopolymer Lipid Hybrid Microcarrier for Transmembrane Inner Ear Delivery of Dexamethasone

Abstract: Dexamethasone is one of the most often used corticosteroid drugs for sensorineural hearing loss treatment, and is used either by intratympanic injection or through systemic delivery. In this study, a biopolymer lipid hybrid microcarrier was investigated for enhanced local drug delivery and sustained release at the round window membrane level of the middle ear for the treatment of sensorineural hearing loss (SNHL). Dexamethasone-loaded and dexamethasone-free microparticles were prepared using biopolymers (polys… Show more

“…Microgels are microsized polymer particles of macromolecular networks with compartmentalization ability and selective permeability, which are favorable for the encapsulation and release of drug agents. Although microparticles have been exploited in middle ear drug delivery in several studies, their biocompatibility, morphology, and adhesion can be further improved. , Numerous technologies, such as spray drying, emulsification solvent evaporation, and microfluidics, are employed to microparticle syntheses. , In particular, microfluidic technology is excellent in manipulating small amounts of fluids at the microscale, and thus, it is capable of generating microparticles with finely controlled sizes and structures. , To date, numerous studies on microfluidic-derived microparticles for use as vehicles in oral delivery, wound healing, antitumor treatments, etc., have been carried out, − whereas their applications in otic treatments have been less explored . Considering the issues associated with intratympanic delivery, the component, size, and physicochemical properties of the microgels must be carefully selected to maintain sustained drug release and overcome the obstacle to air conduction of sound .…”

“…Although microparticles have been exploited in middle ear drug delivery in several studies, their biocompatibility, morphology, and adhesion can be further improved. 18,19 Numerous technologies, such as spray drying, emulsification solvent evaporation, and microfluidics, are employed to microparticle syntheses. 20,21 In particular, microfluidic technology is excellent in manipulating small amounts of fluids at the microscale, and thus, it is capable of generating microparticles with finely controlled sizes and structures.…”

Microfluidic Preparation of Gelatin Methacryloyl Microgels as Local Drug Delivery Vehicles for Hearing Loss Therapy

“…Microgels are microsized polymer particles of macromolecular networks with compartmentalization ability and selective permeability, which are favorable for the encapsulation and release of drug agents. Although microparticles have been exploited in middle ear drug delivery in several studies, their biocompatibility, morphology, and adhesion can be further improved. , Numerous technologies, such as spray drying, emulsification solvent evaporation, and microfluidics, are employed to microparticle syntheses. , In particular, microfluidic technology is excellent in manipulating small amounts of fluids at the microscale, and thus, it is capable of generating microparticles with finely controlled sizes and structures. , To date, numerous studies on microfluidic-derived microparticles for use as vehicles in oral delivery, wound healing, antitumor treatments, etc., have been carried out, − whereas their applications in otic treatments have been less explored . Considering the issues associated with intratympanic delivery, the component, size, and physicochemical properties of the microgels must be carefully selected to maintain sustained drug release and overcome the obstacle to air conduction of sound .…”

“…Although microparticles have been exploited in middle ear drug delivery in several studies, their biocompatibility, morphology, and adhesion can be further improved. 18,19 Numerous technologies, such as spray drying, emulsification solvent evaporation, and microfluidics, are employed to microparticle syntheses. 20,21 In particular, microfluidic technology is excellent in manipulating small amounts of fluids at the microscale, and thus, it is capable of generating microparticles with finely controlled sizes and structures.…”

Microfluidic Preparation of Gelatin Methacryloyl Microgels as Local Drug Delivery Vehicles for Hearing Loss Therapy

The fundamental efficacy of hesperidin-loaded/chitosan-coated hybrid nanoparticles as a prospective regimen in wound healing amendment: In vitro and in vivo comprehensive study

Probucol-Ursodeoxycholic Acid Otic Formulations: Stability and In Vitro Assessments for Hearing Loss Treatment