Abstract
Particle size and morphology are important properties of pharmaceutical particles. Preparation of microparticles with uniform particle size and morphology is necessary in order to systematically relate these properties to the release behavior and other functionalities such as drug encapsulation and dissolution. In this study, we successfully prepared monodisperse, nonagglomerated chitosan microparticles in a single step by a novel spray‐drying technique. The control of particle size and morphology of spray‐dried microparticles was investigated experimentally. Microparticles with larger particle size can be produced when chitosan precursor of higher concentration was used. Storage time of chitosan precursor, drying temperature, and addition of lactose were shown to be crucial parameters that affect the particle morphology. Appropriate choice of the drying temperature and precursor storage time permitted control of the particle morphology, ranging from nearly spherical to cap‐shaped. Surface characteristics of the particles can be finely tuned by the amount of lactose added into the chitosan precursor.
Highlights
Encapsulation of therapeutic agents into polymeric particles has been widely used in drug delivery systems
The viscosity of chitosan solution increased with the concentration, which might be attributed to increasing intermolecular entanglement leading to more restriction in the freedom of movement of individual chains [14]
This paper investigated the influence of formulation variables on the size and morphology of spray-dried chitosan microparticles
Summary
Encapsulation of therapeutic agents into polymeric particles has been widely used in drug delivery systems. Different methods have been used to prepare polymer microparticles, such as emulsification [1], ionic gelation [2], coacervation/precipitation [3], and spray drying [4]. Among these methods, spray drying is highly attractive due to the fast particle formation process and scale up. Microparticles obtained from conventional spray dryers generally display nonuniform properties, such as different sizes and morphologies. Fabrication of microparticles with uniform and controllable size and morphology is highly desirable and imperative
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
