期刊
FOODS
卷 12, 期 18, 页码 -出版社
MDPI
DOI: 10.3390/foods12183385
关键词
microchannels; droplet; hydrophilic compound; hydrophobic compound; drug delivery; emulsion
Microfluidic technology is a powerful tool used in various fields, including chemistry, physics, biology, and engineering. Droplet-based microfluidics, utilizing food-grade emulsions, allows for the development of diverse delivery systems and precise control over droplet size, shape, and dispersity. This review highlights recent advances in droplet-based microfluidic processes using food-grade emulsions to create simple and complex delivery systems.
Microfluidic technology has emerged as a powerful tool for several applications, including chemistry, physics, biology, and engineering. Due to the laminar regime, droplet-based microfluidics enable the development of diverse delivery systems based on food-grade emulsions, such as multiple emulsions, microgels, microcapsules, solid lipid microparticles, and giant liposomes. Additionally, by precisely manipulating fluids on the low-energy-demand micrometer scale, it becomes possible to control the size, shape, and dispersity of generated droplets, which makes microfluidic emulsification an excellent approach for tailoring delivery system properties based on the nature of the entrapped compounds. Thus, this review points out the most current advances in droplet-based microfluidic processes, which successfully use food-grade emulsions to develop simple and complex delivery systems. In this context, we summarized the principles of droplet-based microfluidics, introducing the most common microdevice geometries, the materials used in the manufacture, and the forces involved in the different droplet-generation processes into the microchannels. Subsequently, the encapsulated compound type, classified as lipophilic or hydrophilic functional compounds, was used as a starting point to present current advances in delivery systems using food-grade emulsions and their assembly using microfluidic technologies. Finally, we discuss the limitations and perspectives of scale-up in droplet-based microfluidic approaches, including the challenges that have limited the transition of microfluidic processes from the lab-scale to the industrial-scale.
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