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Review Article


Injectable In Situ Forming Microparticles: A Novel Drug Delivery System 

Evren Algın Yapar1*, Özge İnal2, Yalçın Özkan3 and Tamer Baykara4

1Ministry of Health of Turkey, General Directorate of Pharmaceuticals and Pharmacy, Söğütözü Mah. 2176. Sok. No:5 Kat:6, 06520 Çankaya-Ankara, 2Department of Pharmaceutical Technology, Faculty of Pharmacy, University of  Ankara, 06100 Tandoğan-Ankara, 3Department of Pharmaceutical Technology, Gülhane Military Medical Academy, 06018 Etlik-Ankara, 4UNAM (Institute of Materials Science and Nanotechnology), Bilkent University, 06800 Bilkent-Ankara, Turkey

*For correspondence: Email: algin@pharmacy.ankara.edu.tr or evrenalgin@yahoo.com  Tel: +90-532-382 56 86  

Received:  5 August 2011                                                   Revised accepted: 20 February 2012

Tropical Journal of Pharmaceutical Research, April 2012; 11(2): 307-318

http://dx.doi.org/10.4314/tjpr.v11i2.19  

Abstract

Pharmaceutical formulation research has recently been focusing on delivery systems which provide long therapeutic effects and reduced side effects, and involving simplified production stages and facilitated application process. In situ forming microparticle (ISM) systems, one of the latest approach in this field, offer a new encapsulation technique and meet the objectives stated above. Factors such as the carrier used to form the multiparticles, amount and type of drug and the vehicle type can be taken as the main performance criteria for these systems. Ongoing studies have shown that this new multiparticulate drug delivery system is suitable for achieving new implant delivery system with low risk of dose-dumping, capable of being modulated to exhibit varying release patterns, reproducible, easily applicable and well-tolerated compared with classically surgical implants. 

Keywords: Injectable, In situ forming, Microparticle system, Controlled drug delivery.

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