Low water solubility and high permeability present formulation challenges for drugs categorized as Biopharmaceutics Classification System (BCS) Class II, resulting in reduced bioavailability. This research focuses on addressing the solubility issues of BCS Class II drugs, including Simvastatin, Ketoprofen, griseofulvin, ibuprofen, ketoconazole, and carbamazepine, which exhibit high permeability but poor solubility. A potential strategy to improve the solubility and bioavailability of these drugs is the utilization of nanosuspensions.
 This study investigates the application of nanosuspension technology to enhance the solubility of Ketoprofen, a BCS Class II drug. By reducing the drug's particle size within the nanosuspension, solubility is improved, leading to increased bioavailability and optimized therapeutic efficacy. The research includes in vitro and in vivo experiments to evaluate the drug release profiles and bioavailability of Ketoprofen-loaded nanosuspensions.
 Significant findings from this research include the demonstration of improved bioavailability and enhanced drug release properties achieved with the nanosuspension formulation. In vitro studies show increased drug dissolution rates and improved release profiles compared to conventional formulations. In vivo experiments reveal enhanced pharmacokinetic parameters and therapeutic effectiveness of Ketoprofen when administered through the nanosuspension.
 These results highlight the potential of nanosuspensions as an efficient drug delivery system for BCS Class II drugs, addressing their solubility limitations and improving their bioavailability. The findings contribute to the development of novel strategies in pharmacology for enhancing drug solubility and therapeutic outcomes. Overall, this research emphasizes the significance of nanosuspension technology in optimizing the delivery of BCS Class II drugs and offers valuable insights for future formulation development and therapeutic applications.
 Keywords: Ketoprofen, Nanosuspensions, Ultrasonication, Precipitation, Dissolution rate, Oral bioavailability.