Mechanistic characterization of fast dissolving PVP-I powder with multipolymer approaches and investigation on their molecular interaction.

Povidone-iodine (PVP-I) is widely used as an antiseptic in medical applications. However, its effectiveness is limited by certain drawbacks, such as low solubility in water and high volatility. Therefore, a formulation of a stable solid PVP-I is desirable. In this study, complexes of molecular PVP-I with polyethylene glycol-polyvinyl alcohol copolymer (PEG-PVA copolymer) were considered water-soluble iodophors. Two different methods were used to prepare the solids: physical mixtures and kneading. The physical characteristics of the obtained solids were evaluated using several spectroscopic methods. The presence of iodine was confirmed by a potentiometric titration and antimicrobial activity was tested. The results showed that the PEG-PVA copolymer interacted with povidone primarily through hydrogen bonding between the hydroxyl part of the PEG-PVA copolymer and the amide part of povidone with an estimated binding energy of 3.2 kcal/mol. The amide groups polarity in povidone made them more likely to form hydrogen bonds with the PEG-PVA copolymer. Also, the protonated pyrrolidone bonded to the triiodide anions by intermolecular hydrogen bonds, which increased PVP-I solubility in water. The kneading method provided a faster dissolution rate than physical mixing and pure PVP-I. The iodine contents were within an acceptable range (10-12%), and the antimicrobial activity proved effective against , , and .