AIM: The primary objective of this study was to investigate the in vivo dissolution of carbamazepine in humans and to compare it with the dissolution estimated by deconvolution of plasma concentrations as well as the in vitro dissolution. METHODS: The in vivo study included six healthy volunteers, and consisted of two sequential parts. In part 1 the dissolution was measured by perfusing a semi-open segment in the proximal jejunum in humans. In part 2 the volunteers were given a solution of carbamazepine orally. In both parts of the study, plasma samples were collected up to 48 h after administration of the dose. The in vitro dissolution was measured in a flow-through cell using dissolution medium with and without the addition of bile acids (3 mM). RESULTS: The direct measured in vivo dissolution profile of carbamazepine and the deconvoluted profile were found to be similar. The two dissolution profiles of carbamazepine obtained in vitro were statistically lower than the two in vivo dissolution profiles. The higher in vivo dissolution rate is probably due to efficient sink conditions as a consequence of the high permeability of carbamazepine and more pronounced intestinal motility. CONCLUSION: The jejunal perfusion system was successfully used for in vivo dissolution measurements of carbamazepine and agreed with the deconvoluted plasma profile regarding rate and extent of dissolution. Single-pass perfusion is therefore a meaningful tool for further studies of in vivo dissolution.
AIM: The primary objective of this study was to investigate the in vivo dissolution of carbamazepine in humans and to compare it with the dissolution estimated by deconvolution of plasma concentrations as well as the in vitro dissolution. METHODS: The in vivo study included six healthy volunteers, and consisted of two sequential parts. In part 1 the dissolution was measured by perfusing a semi-open segment in the proximal jejunum in humans. In part 2 the volunteers were given a solution of carbamazepine orally. In both parts of the study, plasma samples were collected up to 48 h after administration of the dose. The in vitro dissolution was measured in a flow-through cell using dissolution medium with and without the addition of bile acids (3 mM). RESULTS: The direct measured in vivo dissolution profile of carbamazepine and the deconvoluted profile were found to be similar. The two dissolution profiles of carbamazepine obtained in vitro were statistically lower than the two in vivo dissolution profiles. The higher in vivo dissolution rate is probably due to efficient sink conditions as a consequence of the high permeability of carbamazepine and more pronounced intestinal motility. CONCLUSION: The jejunal perfusion system was successfully used for in vivo dissolution measurements of carbamazepine and agreed with the deconvoluted plasma profile regarding rate and extent of dissolution. Single-pass perfusion is therefore a meaningful tool for further studies of in vivo dissolution.
Authors: Sara Carlert; Anna Pålsson; Gunilla Hanisch; Christian von Corswant; Catarina Nilsson; Lennart Lindfors; Hans Lennernäs; Bertil Abrahamsson Journal: Pharm Res Date: 2010-08-18 Impact factor: 4.200
Authors: Eva M Persson; Ralf G Nilsson; Göran I Hansson; Lars J Löfgren; Fredrik Libäck; Lars Knutson; Bertil Abrahamsson; Hans Lennernäs Journal: Pharm Res Date: 2006-02-22 Impact factor: 4.200