2020
DOI: 10.1007/s11095-020-02940-7
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IVIVC for Extended Release Hydrophilic Matrix Tablets in Consideration of Biorelevant Mechanical Stress

Abstract: Purpose When establishing IVIVC, a special problem arises by interpretation of averaged in vivo profiles insight of considerable individual variations in term of time and number of mechanical stress events in GI-tract. The objective of the study was to investigate and forecast the effect of mechanical stress on in vivo behavior in human of hydrophilic matrix tablets. Methods Dissolution profiles for the marketed products were obtained at different conditions (stirring speed, single- or repeatable mechanical … Show more

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Cited by 7 publications
(12 citation statements)
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“…Since investigated extended-release hydrophilic matrix tablets are intended to release most of the active substance in the intestinal environment, USP phosphate buffer solution pH of 6.8 was used as the main dissolution medium. Dissolution testing was conducted using an USP Apparatus II with a paddle agitation speed of 50, 100 or 150 rpm (VK 7000, VanKel Industries, NJ, USA) in 900 mL dissolution medium under sink condition (26). Dissolution studies were performed in triplicate.…”
Section: Dissolution Studymentioning
confidence: 99%
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“…Since investigated extended-release hydrophilic matrix tablets are intended to release most of the active substance in the intestinal environment, USP phosphate buffer solution pH of 6.8 was used as the main dissolution medium. Dissolution testing was conducted using an USP Apparatus II with a paddle agitation speed of 50, 100 or 150 rpm (VK 7000, VanKel Industries, NJ, USA) in 900 mL dissolution medium under sink condition (26). Dissolution studies were performed in triplicate.…”
Section: Dissolution Studymentioning
confidence: 99%
“…The erosion rate depends on the gel strength of the outer gel layer under certain release conditions (10,23,24). Among the different parameters affecting in vitro drug release, the hydrodynamic condition (agitation intensity) and mechanical destructive forces play a significant role in drug release from hydrophilic matrices (25,26). However, the in vivo drug release can differ from the predicted in vitro, due to extensive mechanical forces in the GI tract (26)(27)(28)(29).…”
Section: Introductionmentioning
confidence: 99%
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“…Drug formulations administered orally pass through a series of gastrointestinal (GI) compartments with varied contraction forces [ 33 ]. It is reasonable to know if the gastrointestinal contraction forces affect hydrogel structure and drug release during GI transit [ 34 ]. An approach to distinguish between the role of hydrodynamics and mechanical stresses similar to the contraction forces of the GI tract on drug release from modified release dosage forms was presented by Takieddin’s group [ 35 ].…”
Section: Introductionmentioning
confidence: 99%