Hollow Spherical Nanoparticulate Aggregates As Potential Ultrasound Contrast Agent: Shell Thickness Characterization

Overview

Journal Drug Dev Ind Pharm

Publisher Informa Healthcare

Specialty Pharmacology

Date 2009 Jun 27

PMID 19555237

Citations 5

Authors

Kunn Hadinoto

Wean Sin Cheow

Affiliations

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Abstract

Objective: The objective of this work is to manufacture hollow spherical nanoparticulate aggregates for use as an ultrasound contrast agent by means of spray drying of nanoparticulate suspension at a fast drying rate.

Methodology: Biocompatible PMMA-MeOPEGMA and silica nanoparticles are used as the model nanoparticles. The impacts of changing the nanoparticle concentration, pH, and spray drying operating condition on the size and shell thickness-to-particle radius (S/R) ratio, which governs the shell mechanical stability, are investigated.

Results And Conclusion: The results indicate that the hollow microspheres size varies between 2 and 10 mum having S/R ratio between 2% and 4%, where the smaller size particles exhibit a higher S/R ratio. The resultant S/R ratio is found to be more influenced by process parameters acting at the nanoparticle scale (e.g., suspension pH) than by the spray drying operating condition.

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