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BioImpacts. 2022;12(6): 501-513.
doi: 10.34172/bi.2022.23733
PMID: 36644544
PMCID: PMC9809140
Scopus ID: 85143373141
  Abstract View: 628
  PDF Download: 523
  Full Text View: 117

Original Research

Changing the daily injection of glatiramer acetate to a monthly long acting product through designing polyester-based polymeric microspheres

Fatima Molavi 1 ORCID logo, Mohammad Barzegar-Jalali 1 ORCID logo, Hamed Hamishehkar 2* ORCID logo

1 Biotechnology Research Center, Student Research Committee, Department of pharmaceutics, Faculty of Pharmacy, Tabriz University of Medical Sciences, Tabriz, Iran
2 Drug Applied Research Center, Tabriz University of Medical Sciences, Tabriz, Iran
*Corresponding Author: Corresponding author: Hamed Hamishehkar, , Email: hamishehkar.hamed@gmail.com

Abstract

Introduction: Glatiramer acetate (GA) is a newly emerged therapeutic peptide to reduce the frequency of relapses in multiple sclerosis (MS). Despite its good performance in controlling MS, it is not widely used due to daily or biweekly subcutaneous injections due to rapid degradation and body clearance. Therefore, implant design with sustained release leads to prolonged biological effects by gradually increasing drug exposure and protecting GA from rapid local degradation. Methods: Different emulsion methods, PLGA type, surfactant concentration, drug/polymer ratio, drying processes, stirring method, and other variables in preliminary studies modified the final formulation. The release kinetics were studied through mechanistic kinetic models such as zero-order, Weibull, Higuchi, etc. In this study, all challenges for easy scale-up, methodological detail, and a simple, feasible setup in mass production were discussed.
Results: The optimized formulation was obtained by 1:6 drug/PLGA, 0.5% w/w polyvinyl alcohol, and 0.75% w/w NaCl in the external aqueous phase, 1:10 continuous phase to dispersed phase ratio, and without any surfactant in the primary emulsion. The final freeze-dried particles presented a narrow distributed size of 1-10 µm with 7.29% ± 0.51 drug loading and zero-order release behavior with appropriate regression correlation (R2 98.7), complete release, and only 7.1% initial burst release.
Conclusion: Therefore, to achieve improvement in patient compliance through better and longer efficacy, designing the parenteral sustained release microspheres (MPSs) of this immune modulator is a promising approach that should be considered.
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Abstract View: 629

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Submitted: 15 Mar 2021
Revision: 04 Oct 2021
Accepted: 20 Oct 2021
ePublished: 13 Aug 2022
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