A major percentage of the new chemical entities are reported to have poor aqueous solubility. Several antihypertensive drugs used clinically have either low solubility or high hepatic metabolism, thereby presenting low bioavailability (BA) and high pharmacokinetic variability. Improving the aqueous solubility of drug molecules would assist in overcoming the variability, and several approaches for improving solubility have been reported. Solid dispersion (SD) is known as a potential technique to conquer the problem of poor aqueous solubility and low BA. Drug solubility is improved by increasing the wetting property of drugs. This review is focused on discussing various approaches to improve solubility, classification, and different approaches used for formulation of SDs, along with special emphasis on the application of the SD approach for improving solubility and eventually enhancing dissolution and increasing the BA of antihypertensive drugs. The review leads to the conclusion that the use of more than one polymeric carrier for formulating SDs might help in overcoming storage and stability issues and in increasing the commercial viability and success of SDs.
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