Recent Advances in the development of Modified Release Tablets by amalgamating both Solubility Enhancement and Polymer Matrix Sintering Technologies.

ABSTRACT

Background: The fact that about 90 % of newly discovered API’s or new molecular entity(NME) have little or no aqueous solubility, causes a significant protest to the initialization of development and their scale up of dosage form in the Pharma Industry. Aqueous solubility of API’s has critical role in drug dissolution or availability of drug at the site of action or bioavailability, when a dosage form is administered orally.Objective: The object of this study is to formulate a modified release tablet dosage form of a poorly aqueous soluble drug, which not only have higher aqueous solubility or bioavailability but also have sustained release characteristics with high mechanical strength &their commercial viability. Numerous techniques are available for the solubility enhancement but all individual techniques have its own limitations for commercialization.Method: Aqueous solubility of drugs is improved by the known Solubility enhancement techniques like Micronization &Solid dispersions. After successful solubility enhancement, sustained release or modified release tablets of poorly aqueous soluble drug can be easily formulated into a suitable shape or size by using a known Polymer Matrix Sintering Technology with commercial feasibility. Micronization of poorly water-soluble drugs can be performed by Air Jet Mill or Ball Mill. Whereas Solid dispersion technique involves, molecular dispersion of poorly soluble drug in a suitable inert carrier, to form an amorphous and highly soluble compounds. Sintering Technology is defined as the bonding of adjacent particle surfaces in a mass of powder, or in compact, by the application of heat. Conventional sintering technique involves the heating of compact at a temperature below the melting point of the solid constituents in a controlled environment under atmospheric pressure.Results: Enhanced solubility of poorly soluble API’s by these proposed techniques is due to either conversion of crystalline compound in to amorphous form or reduction of particle size to its molecular level by the application of Micronization or solid dispersion techniques. The developed modified release tablets will show a sustained release characteristic due to Sintering aspect and provides enhanced solubility of BCS class II or IV drugs.Conclusion: Novel modified release tablets have been designed through consolidation of Solubility enhancement and Polymer Matrix Sintering technologies. Simultaneous exploitation of well-known and established approaches- Micronization (optimum particle size reduction) or solid dispersion, optional surfactant and Polymer Matrix Sintering Technique in the recent concept, produces significant enhancement of solubility of poorly water soluble API’s without compromising the content uniformity of dosage form and also provide a modified or sustained release characteristics with high mechanical strength. The release profile of drug can be easily tailored by using combination of both techniques where challenges of low solubility are prominent.