Oil droplet size determination in complex flavor delivery systems by diffusion NMR spectroscopy

Droplet size distribution of flavor oils in two different solid flavor delivery systems were determined with pulsed field gradient NMR spectroscopy: yeast encapsulation system, a spray dried flavor encapsulation system based on empty yeast cells, and glassy encapsulation system, an extruded solid water soluble carbohydrate delivery system. The oil droplet sizes are limited by the yeast cell walls in the yeast encapsulation system and the size distribution is unimodal according to images from transmission electron microscopy. The droplet size determination with diffusion NMR is based on the Murday and Cotts theory of restricted diffusion of liquids in geometrical confinements. Good fits of the diffusion data could be obtained by applying a unimodal, log-normal size distribution model and average droplet sizes of about 2 μm were found that correspond approximately to the inner diameter of the yeast cells. Scanning electron microscopy images showed a multimodal droplet size distribution in the glassy extruded delivery systems. To fit the NMR data a bimodal log-normal distribution function with five independent fitting parameters was implemented that yielded consistent and robust results. The two size populations were found in the micron and sub-micron range, respectively. The method was sufficiently accurate to depict variation of droplet size distributions in glassy encapsulation systems of different formulation.

Graphical abstractWith PFG diffusion NMR spectroscopy flavor oil droplet size distribution in yeast encapsulation systems (unimodal, left) and in glassy encapsulation systems (bimodal, right) can be discriminated..Figure optionsDownload full-size imageDownload high-quality image (128 K)Download as PowerPoint slideResearch highlights► Oil droplet size distribution was determined for solid flavor delivery systems. ► Microscopy (SEM, TEM) methods were combined with PFG diffusion NMR spectroscopy. ► Size distribution is unimodal in yeast and multimodal in glassy systems. ► NMR data were fitted to uni- and bimodal distribution functions..