A Protocol for Preparing Mucoadhesive Emulsion Microgels and Assessing Their Mucoadhesion Properties In Vitro.

Abstract

Intravesical instillation is an efficient therapeutic technique based on targeted administration of a drug directly into the lesion for the treatment of bladder diseases. This is an alternative to traditional systemic administration of drugs. However, this technique requires repeated procedures, which can lead to even greater inflammation and infection of the urethra. To date, novel systems that allow prolonged drug retention in the bladder cavity are actively being developed. We recently reported a targeted drug delivery system based on the mucoadhesive emulsion microgels consisting of the natural component whey protein isolate. Such micron-sized carriers possess high loading capacity, a prolonged drug release profile, and efficient mucoadhesive properties to the bladder urothelium. As a continuation of this work, we present a protocol for the synthesis of mucoadhesive emulsion microgels. Detailed procedures for preparing precursor solutions as well as studying the physico-chemical parameters of microgels (including loading capacity and drug release rate) and the mucoadhesive properties using the model of porcine bladder urothelium are discussed. Precautionary measures and nuances that are worth paying attention to during each experimental stage are given as well. Key features • The protocol for the synthesis of mucoadhesive emulsion microgels based on whey protein isolate is presented. The experimental conditions of emulsion microgels synthesis are discussed. • Methods for studying the physico-chemical properties of mucoadhesive emulsion microgels (size of emulsion microgels particles, loading capacity, release kinetics) are described. • The method for assessing mucoadhesive properties of emulsion microgels is demonstrated using the porcine bladder tissue model ex vivo.