A REVIEW ON THE EMERGING POTENTIAL OF FLOATING MICROSPHERES IN GASTRORETENTIVE DRUG DELIVERY SYSTEMS

Main Article Content

Kuldipsinh Chauhan
Dr.Shweta Paroha
Dr.Pragnesh Patani

Keywords

Floating drug delivery systems (FDDSs), Floating microspheres, Gastro retentive dosage forms, Gastroretentive Drug Delivery System.

Abstract

Oral drug delivery systems have to overcome a number of challenges in order to maintain drug release and extend the amount of time the medication is in the gastrointestinal tract until it has been fully consumed. A specific period of time later, fully released This procedure, called gastric emptying, It is emptied. Athletes who are having digestive problems can find it very beneficial. The upper small intestine provides a window for the absorption of nutrients. Drugs that are poorly soluble or unstable in intestinal fluids might benefit greatly from floating microspheres that improve drug retention and enable prolonged action in the stomach.


Floating drug delivery systems (FDDS) float in the stomach for a long time because of their lower bulk density than gastric fluids. Due to the possibility that floating microspheres in the stomach may lengthen a medication's retention time, the effects of the drug may remain longer. As a result, a longer drug retention time and a slower metabolism are required to assure long-term efficacy. FDDS dose forms are effective in situations of constipation and hyperactive bowel movement to elicit a significantly better reaction. Floating drug delivery systems (FDDSs) are helpful in these circumstances. They are anticipated to float on the stomach's contents for a considerable amount of time. Gastro retentive dosage forms are available in a variety of formats, such as tablets and capsules. Hollow microspheres are garnering a lot of interest due to their numerous potential uses in medicine delivery. Due to the drug substance being uniformly dispersed throughout the stomach juice, this prevents the drug from being released too soon. This review's objective is to examine floating microspheres approach in Gastro-retentive Drug Delivery System.

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