The objective of this study was to formulate aripiprazole (ARI)-loaded pH-modulated solid dispersions (SD) to enhance solubility, dissolution, and bioavailability via hot-melt extrusion (HME) technology. Kollidon ® 12 PF (PVP) and succinic acid (SA) were selected after solubility screenings of various polymers and acidifiers. Several formulations, varying in screw speed and drug/polymer/acidifier ratios, were extruded using an 11 mm twin-screw extruder and were investigated for the effect of these variables. Scanning electron microscopy (SEM), differential scanning calorimetry (DSC), and X-ray diffraction (XRD) were used to perform solid-state characterizations of the pure drug and extrudates. The aqueous solubility and dissolution were evaluated for the pure drug and milled extrudates. Among the prepared formulations, N6 was chosen for in vivo absorption studies. Solid-state characterization demonstrated the transformation of the crystalline ARI to an amorphous state in the formulations. Each formulation showed increased solubility and dissolution compared to the drug powder. The oral bioavailability (C max and AUC 0-12 ) of N6 was significantly improved when compared to the pure ARI. This novel study not only discusses the incorporation of acidifiers in SDs but also the preparation of SDs using HME technology as effective techniques to improve drug release and bioavailability.
Organoleptic agents constitute an important niche in the field of pharmaceutical excipients. These agents encompass a range of additives responsible for coloring, flavoring, sweetening, and texturing formulations. All these agents have come to play a significant role in pharmaceuticals and cosmetics due to their ability to increase patient compliance by elevating a formulation's elegance and esthetics. However, it is essential to review their physical and chemical attributes before use, as organoleptic agents, similar to active pharmaceutical ingredients (APIs), are susceptible to physical and chemical instability leading to degradation. These instabilities can be triggered by API-organoleptic agent interaction, exposure to light, air and oxygen, and changes in pH and temperature. These organoleptic agent instabilities are of serious concern as they affect API and formulation stability, leading to API degradation or the potential for manifestation of toxicity. Hence, it is extremely critical to evaluate and review the physicochemical properties of organoleptic agents before their use in pharmaceuticals and cosmetics. This literature review discusses commonly used organoleptic agents in pharmaceutical and cosmeceutical formulations, their associated instabilities, and probable approaches to overcoming them.
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