Insulin Mucoadhesive Liposomal Gel for Wound Healing: a Formulation with Sustained Release and Extended Stability Using Quality by Design Approach
Date
2019
Journal Title
Journal ISSN
Volume Title
Type
Article
Publisher
Springer New York LLC
Series Info
AAPS PharmSciTech
20
20
Scientific Journal Rankings
Abstract
The present study deals with the formulation of topical insulin for wound healing with extended stability and sustained release, by applying quality by design concepts. Insulin has been promoted as a promising therapeutic wound healing agent. Topical formulation of insulin faced major problems, as it cannot be delivered safely to the wound with a controlled rate. Formulation of insulin-loaded vesicles in optimized bio-adhesive hydrogels has been explored to ensure a safe delivery of insulin to wounds in a controlled manner. Quality by design (QbD) was applied to study the effect of several critical process parameters on the critical quality attributes. Ishikawa diagram was used to identify the highest risk factors, which were screened by a fractional factorial design and augmented by Box�Behnken design. The optimized formula was incorporated into a mucoadhesive gel, which was further subjected to stability and clinical studies. An optimized formula was obtained with a particle size of 257.751�nm, zeta potential ? 20.548�mv, 87.379% entrapment efficiency, and a release rate of 91.521�?g/cm2/h. The results showed that liposomal insulin remained stable for 6�months in aqueous dispersion state at 4�C. Moreover, the release was sustained up to 24�h. The clinical study showed an improvement in the wound healing rate, 16 times, as the control group, with magnificent reduction in the erythema of the ulcer and no signs of hypoglycemia. Insulin-loaded liposomal chitosan gel showed a promising drug delivery system with high stability and sustained release. � 2019, American Association of Pharmaceutical Scientists.
Description
Scopus
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MSA Google Scholar
Keywords
October University for Modern Sciences and Arts, جامعة أكتوبر للعلوم الحديثة والآداب, University of Modern Sciences and Arts, MSA University, insulin, ishikawa diagram, liposomes, quality by design, wound healing, chitosan, insulin, liposome, chitosan, insulin, liposome, adult, aged, Article, case study, clinical article, controlled study, drug design, drug diffusion, drug formulation, drug hydrolysis, drug quality, drug stability, encapsulation, experimental design, factorial design, gel, human, human cell, in vitro study, liposomal delivery, mucoadhesion, particle size, priority journal, randomized controlled trial, single blind procedure, sustained drug release, viscometry, wound healing, zeta potential, delayed release formulation, drug delivery system, drug effect, hydrogel, pharmacology, wound healing, Chitosan, Delayed-Action Preparations, Drug Delivery Systems, Hydrogels, Insulin, Liposomes, Particle Size, Wound Healing