Preparation of indapamide-HP-β-CD and indapamide-PVP nanoparticles by supercritical antisolvent technology: Experimental and DPD simulations

Abstract

The poor aqueous solubility of indapamide (INP) limits its applicability in various biomedical applications. To overcome this issue, nanosized INP particles (INP-HP-β-CD NPs and INP-PVP-K30 NPs) were fabricated using the supercritical antisolvent (SAS) approach to improve the bioavailability of INP. The process, formula, and supercritical antisolvent process were optimized using single-factor and orthogonal methods. The tiny INP-HP-β-CD NPs with a particle size of 142.5 nm and INP-PVP-K30 NPs with a particle size of 150.4 nm were obtained under optimum conditions. Further analysis and characterization, such as SEM, FTIR, XRD, DSC, 1H NMR, and dissipative particle dynamics (DPD) simulations, were carried out to verify the formation mechanism of the INP complex nanoparticles. The altered physical state of INP from crystalline to amorphous loaded onto the polymer resulted in a significant improvement in the solubility and dissolution rate and high biocompatibility with cells compared to raw INP. Therefore, we propose that INP nanoparticles processed by a supercritical antisolvent process can be used as an advanced drug delivery system, especially for insoluble drugs.