Administering therapeutics through the oral route is a pervasive and widely approved medication administration approach. However, it has been found that many drugs show low systemic absorption when delivered through this route. Such limitations of oral drug delivery can be overcome by polymeric micelles acting as vehicles. As a result, they improve drug absorption by protecting loaded drug substances from the gastrointestinal system's hostile conditions, allowing controlled drug release at a specific site, extending the time spent in the gut through mucoadhesion, and inhibiting the efflux pump from reducing therapeutic agent accumulation. To promote good oral absorption of a weakly water-soluble medicinal drug, the loaded medicine should be protected from the hostile atmosphere of the GI tract. Polymeric micelles can be stacked with a broad assortment of ineffectively dissolvable medications, improving bioavailability. This review discusses the major mechanism, various types, advantages, and limitations for developing the polymeric micelle system and certain micellar drug delivery system applications. The primary goal of this review is to illustrate how polymeric micelles can be used to deliver poorly water-soluble medications.
Some of the drugs have poor absorption because of a narrow absorption window in the gastrointestinal tract (GIT). To improve the absorption of such drugs in the GIT, gastro-retentive drug delivery techniques play an important role. Diacerein is an antirheumatic drug used for joint pain and arthritis. The expandable gastro-retentive tablets were prepared to attain an extended therapeutic action of Diacerein. Expandable tablets were formulated to prolong gastric retention, enhance the bioavailability of the drug candidate and attain a desirable size greater than the diametric size of the pyloric sphincter (i.e., 13 mm in diameter) of the tablet after administration by expandable technique. The expandable tablet was formulated using swellable polymers and polyelectrolytes, i.e., HPMCK 100, PEO, chitosan, and carbopol. The proposed expandable tablets were evaluated by preliminary evaluation parameters, micromeritic investigations, all physicochemical evaluations including swelling index, weight variation, drug content, in-vitro release studies and their release kinetics. Method: The wet granulation method is used for the preparation of expandable tablets of Diacerein. Result: The release of Diacerein from all formulations was studied in phosphate buffer pH 1.2 at 37±5°C. The net results conclude that the formulation having HPMC K 100, PEO with the addition of carbopol (formulation C1) showed the maximum swelling index as compared to others. And it was found that formulation C1 is the most superior and reliable formulation in terms of all physicochemical parameters and in-vitro drug release studies. The best formulation obtained from in-vitro drug release studies was shown. Keywords: Gastro retentive, expandable system, noval drug delivery system, controlled drug delivery system, gastric transit time, swellable polymers, GIT.
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