Journal of Pharmaceutical Research and Integrated Medical Sciences

jprims

3049-1681

Dr. Arpan Kumar Tripathi

10.64063/3049-1681.vol.2.issue7.8

jprims-00000112

Solid Lipid Nanoparticles for Poorly Soluble Drugs: Formulation and Evaluation

Deshmukh

Sujit Ramchandra

Ghadge

Mayuri Shatrughna

nalawade

Ajay vitthal

Mahajan

Ravindra Raghunath

National Institute of Technology Warangal Telangana Pin- 46241 Yashvantrao Chavan Institute of Science Satara, Maharashtra. India Pin - 415019 Dept. of Chemical Engineering National Institute of Technology Warangal, Telangana Pin: 506004

2026

2 7

Poor water solubility is still a big problem in medication development since it typically makes oral formulations less bioavailable and less effective at treating diseases. The goal of this project was to create and test solid lipid nanoparticles (SLNs) as a new way to deliver medications that don't dissolve well. Four SLN formulations were made and tested using a hot homogenization followed by ultrasonication method. The tests looked at the size of the particles, the polydispersity index (PDI), the zeta potential, the entrapment efficiency, the drug loading, and the in vitro drug release. The results showed that higher concentrations of surfactants and lipids made the particles smaller, trapped more drugs, and released them over a longer period of time. Formulation F4 had the best performance, with a particle size of 130 nm, an entrapment efficiency of 88%, and a drug release rate of 85% at 24 hours. Statistical analysis showed that there were big differences across the formulations (p

Clinical Translation. Therapeutic Efficacy Nanoparticle Integration Biocompatibility Precision Medicine Stimuli-Responsive Polymers Controlled Drug Delivery Smart Hydrogels