1Department of Pharmaceutics, Nehru College of Pharmacy, Pampady, Kerala, India
2Department of Pharmacology, Nehru College of Pharmacy, Pampady, Kerala, India
3Department of Pharmaceutics, Nehru College of Pharmacy, Pampady, Kerala, India
4Department of Pharmaceutics, Nehru College of Pharmacy, Pampady, Kerala, India
5Department of Pharmaceutics, Nehru College of Pharmacy, Pampady, Kerala, India
6Department of Pharmaceutics, Nehru College of Pharmacy, Pampady, Kerala, India
7Department of Pharmaceutics, Nehru College of Pharmacy, Pampady, Kerala, India
8Department of Pharmaceutics, Nehru College of Pharmacy, Pampady, Kerala, India
9Department of Pharmaceutics, Nehru College of Pharmacy, Pampady, Kerala, India
Recently, researchers have looked at the use of nanotechnology as a drug-delivery system for topical and transdermal applications. The transport of medications and active ingredients to the skin via formulations, including nanoparticles, is a subject of substantial contemporary interest. The present work is proposed to prepare the atorvastatin nanogels to promote wound healing in a diabetic animalmodel.Atorvastatin nanogels were prepared by precipitation polymerization technique using hydroxy propyl methacrylate as polymer. The drug and polymer were selected in ratios of 1:1, 1:2, 1:3, 1:4, 1:5, 1:6, 1:7 and 1:8. Additionally, the produced nanogel was evaluated in vivo and examined for its particle size, trapping effectiveness, and drug release in vitro. The particle size of the prepared various formulations (F1-F8) showed a size range of 68 to 80nm, and entrapment efficiency was seen to be in the range of 58.36-86.75%. The cumulative percentage of drug release was reported to be 61.96 to 73.76 percent over a period of 12hours during the in vitro drug release investigation, which was conducted using phosphate buffer at pH 7.4.The drug release followeda non-fiction mechanism of release kinetics. On the other hand,
Nanogel, Atorvastatin, Diabetic, Wound healing
