Open Pharmaceutical Sciences Journal

2016, 3 : 182-195
Published online 2016 August 09. DOI: 10.2174/1874844901603010182
Publisher ID: PHARMSCI-3-182

REVIEW ARTICLE
Study of Effect of Different Factors in Formulation of Micro and Nanospheres with Solvent Evaporation Technique

Gunjan Subedi, *,1 , Ashwinee Kumar Shrestha2 and Shailendra Shakya2

* Address correspondence to this author at the Qmed Formulations Pvt. Ltd and Department of Pharmacy, Kathmandu University, Dhulikhel, Nepal; Email: gunjan_subedi@yahoo.com

ABSTRACT

Background:

There are various methods of formulation of micro and nanospheres such as solvent evaporation, solvent removal, polymerization, hot-melt encapsulation, coacervation, phase/wet inversion, spray drying, spray congealing etc. Amongst these all, solvent evaporation is one of the most widely used, researched, easy, accessible methods and for which many patents have been applied. It is thus imperative to understand the basics of effect of formulation variables and design of solvent evaporation method which will be covered in this review article.

Objective:

To discuss the various formulation factors while designing the robust micro and nanospherical systems with better morphology, entrapment and release of the drugs.

Method:

Systematic analysis of the relevant literature, bibliographies, and interactions with investigators.

Results:

From the investigation of different literatures, it was found that various factors of solvent evaporation technique may be controlled in order to design the micro and nanospheres of suitable morphology, entrapment and release characters.

Conclusion:

Various factors like type of polymer used, weight, viscosity, hydrophilicity, concentration, polymer ratio, stirring speed, emulsifier concentration, concentration of cross-linking agents, type of solvent used, rate of addition of solvent etc. Affect the yield, morphology, release and entrapment of the drug inside the system. Hence, these factors play crucial role in the design of a robust micro and nanospherical system.

Keywords:

Entrapment, Microparticles, Nanoparticles, Polymer erosion.