Characterisation of niosome nanoparticles prepared by microfluidic mixing for drug delivery

Lipid nanoparticles have gained much attention due to their potential as drug delivery systems. They are safe, effective, and be targeted to particular tissues to deliver their payload. Niosomes are one type of lipid nanoparticles that comprise non-ionic surfactants which have proven to be effective due to their stability and biocompatibility. Different manufacturing processes have been reported for niosome preparation, but many of them are not scalable or reproducible for pharmaceutical use. In this study, microfluidic mixing was used to prepare niosomes with different lipid compositions by changing the type of non-ionic surfactant. Niosomes were evaluated for their physicochemical characteristics, morphology, encapsulation efficacy, release profiles of atenolol as a model hydrophilic compound, and cytotoxic activities. Microfluidic mixing allows for particle self-assembly and drug loading in a single step, without the need for post-preparation size reduction. Depending on the lipid composition, the empty particles were <90 nm in size with a uniform distribution. A slight but not significant increase in these values was observed when loading atenolol in most of the prepared formulations. All formulations were spherical and achieved variable levels of atenolol encapsulation. Atenolol release was slow and followed the Korsmeyer-Peppas model regardless of the surfactant type or the percentage of cholesterol used.