Importance of stabilizers of nanocrystals of poorly soluble drugs

Approximately 70-90% of the new active pharmaceutical ingredients/drugs are poorly soluble in water/biological fluids. Improvement of solubility, dissolution rate, bioavailability are the main characteristics of drug nanocrystals that are important for oral drug administration. High bioadhesive activity, depending on the type of stabilizer, is considered to be an essential feature of drug nanocrystals for oral, dermal, ocular dosage forms (Chang et al., 2015; Sheokand et al., 2018; Tuomela et al., 2016). Drug nanocrystals are solid nanosized particles of pharmacologically active substances, mainly BCS class IIa and IIb, 200 to 600 nm in diameter, homogeneously coated with 10-50% stabilizer/surfactants and/or polymers, forming ultrafine dispersion (Malamatari et al., 2018). Drug nanocrystals are usually in the crystalline state, but depending on the manufacturing method and process parameters, they may be in the amorphous state (Shete et al., 2014). Drug nanocrystals can be obtained by increasing their particle size by controlled precipitation/agglomeration from solution or by reducing drug particle size by milling to the desirable size. The two basic methods for obtaining drug nanocrystals are bottom up (e.g., precipitation) and top down (e.g., milling) methods, or drug nanocrystals can be made by a combination of these processes. By combining these two methods the desired particle size of drugs can be achieved and disadvantages of the individual methods are overcomed. These methods are intended for the preparation of liquid pharmaceutical nanosuspensions whose internal phase consists of drug nanocrystals particles, which can be converted into solid drug nanocrystals by post-production processes (spray drying, freeze drying or other process) in order to improve chemical, physical stability of drug during storage, when the selected stabilizer of drug nanocrystal could not provide long-term stability of the liquid nanosuspension (Sheokand et al., 2018).