Developing a predictive in vitro dissolution model based on gastrointestinal fluid characterisation in rats

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The influence of physiological factors on the solubility of drug compounds has been thoroughly investigated in humans. However, as these factors vary between species and since many in vivo studies are carried out in rats or mice, it has been difficult to establish sufficient in vitro in vivo relations. The aim of this study was to develop a physiologically relevant in vitro dissolution model simulating the gastrointestinal (GI) fluids of fasted rats and compare it to previously published in vitro and in vivo data. To develop the in vitro model, the pH was measured in situ in six segments of the GI tract of anesthetised rats, then the fluids from the stomach, the proximal and the distal small intestine were collected and characterized with regard to osmolality, and bile acid and phospholipid concentration. The pH and osmolality were found to increase throughout the GI tract. The bile acids and phospholipids were present in high concentrations in the proximal small intestine, and the bile acid concentration doubled in the distal part, where the phospholipid concentration decreased. Matrix-assisted laser desorption ionisation mass spectrometry imaging was applied on a cross section of the small intestine, to study which bile acids and phospholipid classes were present in the small intestine of rats. Both cholic acid, taurocholic acid and glycocholic acid were detected, and phosphatidylcholine (34:2) was found to be mainly present in the intestinal wall or mucus, whereas lysophosphatidylcholine (16:0) was also detected in the lumen. Based on these observations, biorelevant media were developed to simulate fluids in the stomach and the proximal part of the small intestine in fasted rats. The media were implemented in a two-step in vitro dissolution model, which was found to better predict the in vivo performance of furosemide, when compared to previously published in vitro and in vivo data.
Original languageEnglish
JournalEuropean Journal of Pharmaceutics and Biopharmaceutics
Volume142
Pages (from-to)307-314
ISSN0939-6411
DOIs
Publication statusPublished - 2019
CitationsWeb of Science® Times Cited: No match on DOI

    Research areas

  • Biorelevant media, Gastrointestinal fluids, Rats, In vitro in vivo correlation

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