9^th World Drug Delivery Summit

Biography

Biography: Giovanni Filippo Palmieri

Abstract

Acoustic spectroscopy is one of the emerging technologies developed to minimize processing, maximize quality and ensure the safety of pharmaceutical, food and chemical products. The operating principle of acoustic spectroscopy is the measurement of the ultrasound pulse intensity and phase after its propagation through a sample. The main goal of this technique is to characterise concentrated colloidal dispersions without dilution, in such a way as to be able to analyse non-transparent and even highly structured systems. After a simplified explanation of the theory behind acoustic spectroscopy and a brief discussion on the two types of instruments that can be found on the market, the presentation describes what type of information can be obtained from different dispersed systems for pharmaceutical use. More precisely, it is shown as acoustic spectroscopy can give the particle size distribution of micelles and other types of self assembled systems, or emulsions and microemulsions. The case of poloxamer 407 water system and that of an entire ternary diagram are given. At the same time, microheological considerations about the structure of the system can be done. Then, some examples of transitions that can be monitored by acoustic specrtroscopy are shown: thermal self assembling and thermogelling, liposomes thermal transitions, dissolution kinetics of polymers in water, mucoadhesion of polymers.