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  • Title: Water migration from soft gelatin capsule shell to fill material and its effect on drug solubility.
    Author: Serajuddin AT, Sheen PC, Augustine MA.
    Journal: J Pharm Sci; 1986 Jan; 75(1):62-4. PubMed ID: 3958908.
    Abstract:
    The bioavailability of some poorly water-soluble drugs was reported to increase due to a change in dosage form from a tablet to a solution encapsulated in soft gelatin capsules. However, the objective of increasing the bioavailability may be defeated if the drug crystallizes from a solution inside the capsule. In this study, a water-insoluble drug [alpha-pentyl-3-(2-quinolinylmethoxy)benzenemethanol; REV 5901] was solubilized in both polyethylene glycol 400 (PEG 400) and a 6:1 mixture of Gelucire 44/14:PEG 400. The solutions were then encapsulated in soft elastic gelatin capsules with a fill weight of 700 mg (drug, 125 mg), and water migration from the capsule shell into the fill material and its effect on the solubility of the drug were investigated. Gelucire 44/14 is a mixture of hydrogenated fatty acid esters with a mp of 44 degrees C; PEG 400 was added to reduce the mp of solution to approximately 36 degrees C for easier encapsulation. After equilibration of capsules at ambient condition, the amount of water in the PEG 400 solution was 6.3%. This reduced the solubility of the drug by 45%, resulting in drug crystallization. The solubility decreased exponentially with the increase in water content. The water in the encapsulated Gelucire:PEG solution was only 1.1%, which did not affect the solubility significantly.
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