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    Preparation of nanosuspensions of a 1,4-dihydropyridine-based mixed L-/T-type calcium channel blocker by combined precipitation and ultrasonication methods
    (Elsevier, 2023) Pezik, Esra; Gulsun, Tugba; Gunduz, Miyase Gozde; Sahin, Selma; Ozturk, Naile; Vural, Imran
    M3, a condensed 1,4-dihydropyridine (DHP) derivative, targets both L- and T-type calcium channels and therefore, stands as a promising antihypertensive drug candidate. This study aims to improve the poor solubility of M3 using nanocrystal technology (a combination of precipitation and ultrasonication methods) to enhance its oral bioavailability. Pre-formulation studies were performed and M3 nanosuspensions were prepared using different stabilizers (polyvinyl pyrrolidone K30, polyvinyl alcohol, SoluPlus & REG;) and surfactants (poloxamer 188, poloxamer 407, sodium deoxycholate, sodium lauryl sulfate) at different concentrations (0.05, 0.1, 0.5, 1.0, 2.0%, w/v). The optimum nanosuspension formulation was freeze-dried using different cryoprotectants (mannitol, trehalose, glucose, sucrose, dextran) at different ratios (1.25, 2.5, 5.0%, w/v). It was determined that the most suitable cryoprotectant and ratio was 5.0% trehalose, resulting in nanocrystals with a size of 320.2 & PLUSMN; 15.3 nm and a zeta potential of -27.4 & PLUSMN; 0.1 mV. The physicochemical properties of M3, poloxamer 188, physical mixture and freeze-dried nanocrystals were evaluated by XRD, DSC and FT-IR analyses. Characterization studies showed amorphization of M3 in the freeze-dried nanocrystals prepared with poloxamer 188. The result of equilibrium solubility and permeability studies results indicated that M3 could be a BCS class 4 compound. Cell culture studies using Caco-2 cells showed that M3 had no significant toxic effect on the cells and had a Papp value of 2.2 x 10-7 cm/s. Compared to coarse M3 powder freeze-dried M3 nanocrystals showed a 200-fold increase in solubility and a 28.6-fold increase in apparent permeability. The cytotoxic effect of M3 was also reduced by using poloxamers as stabilizers in the formulation. M3 nanosuspensions were found to be a promising candidate for the oral administration of M3 for the potential treatment of hypertension due to the increase in solubility and permeability which could enhance its oral bioavailability.