Evaluation of fasted and fed state simulated and human intestinal fluids as solvent system in the Ussing chambers model to explore food effects on intestinal permeability

Wuyts, Benjamin; Riethorst, Danny; Brouwers, Joachim; Tack, Jan; Annaert, Pieter; Augustijns, Patrick

doi:10.1016/j.ijpharm.2014.12.021

Cited by 41 publications

(26 citation statements)

References 74 publications

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“…In line with our results in HVs, Wuyts et al reported a pH of duodenal aspirates from HVs in fasted and fed states of 7.5 and 6.3, respectively. 15 The higher postprandial pH in patients with FD is in apparent conflict with the results from a previous study by Lee et al, in which reduced duodenal acid clearance and increased late postprandial duodenal acid exposure was reported in a selected group of dyspeptic patients with prominent nausea. 16 The different results may be related to differences in patient selection, meal choice, method of pH measurement and especially study design, with a shorter postprandial measurement time in the present study compared to the 24-hour duodenal pH recording in the study by Lee and colleagues in which differences occurred mainly after the second postprandial hour.…”

Section: Discussionmentioning

confidence: 70%

Altered duodenal bile salt concentration and receptor expression in functional dyspepsia

et al. 2018

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Background: Functional dyspepsia is a common functional gastrointestinal disorder in which a variety of pathophysiological mechanisms such as increased intestinal permeability and low-grade inflammation are involved. The factor causing these alterations, however, has not been identified. Objective: We aimed to evaluate the luminal bile salt content and receptor expression in patients with functional dyspepsia and healthy volunteers. Methods: Gastroduodenoscopy was performed to obtain duodenal biopsies from 25 healthy volunteers and 25 patients with functional dyspepsia (Rome III) to measure duodenal bile salt receptor expression with Western blot. Duodenal fluid aspirates were collected at fixed time points during fasted and fed state conditions and bile salt composition analysis was performed by liquid chromatography-mass spectrometry/mass spectrometry. Results: Patients (N ¼ 17) displayed decreased fasted bile salt concentrations compared to healthy volunteers (N ¼ 20) over time (1.8 AE 0.3 mM vs 3.6 AE 0.5 mM; p ¼ 0.03). In addition, an increased expression of duodenal bile salt sensor vitamin D receptor was found in patients (3.7 AE 1.0-fold; p < 0.0005; N ¼ 24 for both groups). Conclusion: Patients with functional dyspepsia are characterized by a decreased duodenal bile salt concentration in fasted state and an increased duodenal vitamin D receptor expression.

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Section: Discussionmentioning

confidence: 70%

Altered duodenal bile salt concentration and receptor expression in functional dyspepsia

et al. 2018

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“…[32][33][34][35][36] Because these media are supplemented with biorelevant substances like taurocholate and lecithin, they are preferred over simple aqueous buffers. Wuyts et al 37,38 previously validated the use of FaSSIF as biorelevant apical substitute medium for FaHIF in the Caco-2 cell assay and the Ussing chambers setup. 33 To verify whether FaSSIF can be considered as a valuable substitute for FaHIF in the AMIsystem, both human and simulated intestinal media were explored as donor solvent system.…”

Section: Correlation Between Fassif and Fahif As Donor Medium In The mentioning

confidence: 99%

“…40 In this study, FaSSIF-v1 was used as donor medium because of (i) its simplicity and (ii) the strong correlation observed with FaHIF using other permeation tools (Caco-2 system and Ussing chambers model). 37,38 Nevertheless, it may be worthwhile to explore the passive permeability using FaSSIF-v2 and FaSSIF-v3 as donor medium in the AMI-system. 41…”

Section: Correlation Between Fassif and Fahif As Donor Medium In The mentioning

confidence: 99%

Assessment of Passive Intestinal Permeability Using an Artificial Membrane Insert System

Berben

Brouwers

Augustijns

2018

Journal of Pharmaceutical Sciences

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Despite reasonable predictive power of current cell-based and cell-free absorption models for the assessment of intestinal drug permeability, high costs and lengthy preparation steps hamper their use. The use of a simple artificial membrane (without any lipids present) as intestinal barrier substitute would overcome these hurdles. In the present study, a set of 14 poorly water-soluble drugs, dissolved in 2 different media (fasted state simulated/human intestinal fluids [FaSSIF/FaHIF]), were applied to the donor compartment of an artificial membrane insert system (AMI-system) containing a regenerated cellulose membrane. Furthermore, to investigate the predictive capacity of the AMI-system as substitute for the well-established Caco-2 system to assess intestinal permeability, the same set of 14 drugs dissolved in FaHIF were applied to the donor compartment of a Caco-2 system. For 14 drugs, covering a broad range of physicochemical parameters, a reasonable correlation between both absorption systems was observed, characterized by a Pearson correlation coefficient r of 0.95 (FaHIF). Using the AMI-system, an excellent predictive capacity of FaSSIF as surrogate medium for FaHIF was demonstrated (r = 0.96). Based on the acquired data, the AMI-system appears to be a time- and cost-effective tool for the early-stage estimation of passive intestinal permeability for poorly water-soluble drugs.

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“…Early attempts to study disposition of small molecules, in vitro, leveraged Ussing chambers (Wallon et al, 2005;Wuyts et al, 2015) with isolated human (endoscopic biopsied) tissue, followed by migration to gut tissue-derived subcellular fractions, and finally, the deployment of human gut "surrogate" reagents such as LS180 and Caco-2 cells (Rogers et al, 1987;Yamaura et al, 2016). Only recently has it been possible to consider using physiologically relevant human intestinal models by analogy with human primary hepatocytes [see Khetani et al (2018) and Bale et al (2018) in this special issue on novel models of drug metabolism, disposition, and toxicity].…”

Section: Introductionmentioning

confidence: 99%

Physiologically Relevant, Humanized Intestinal Systems to Study Metabolism and Transport of Small Molecule Therapeutics

et al. 2018

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Intestinal disposition of small molecules involves interplay of drug metabolizing enzymes (DMEs), transporters, and host-microbiome interactions, which has spurred the development of in vitro intestinal models derived from primary tissue sources. Such models have been bioengineered from intestinal crypts, mucosal extracts, induced pluripotent stem cell (iPSC)-derived organoids, and human intestinal tissue. This minireview discusses the utility and limitations of these human-derived models in support of small molecule drug metabolism and disposition. Enteroids from human intestinal crypts, organoids derived from iPSCs using growth factors or small molecule compounds, and enterocytes extracted from mucosal scrapings show key absorptive cell morphology while are limited in quantitative applications due to the lack of accessibility to the apical compartment, the lack of monolayers, or low expression of key DMEs, transporters, and nuclear hormone receptors. Despite morphogenesis to epithelial cells, similar challenges have been reported by more advanced technologies that have explored the impact of flow and mechanical stretch on proliferation and differentiation of Caco-2 cells. Most recently, bioengineered human intestinal epithelial or ileal cells have overcome many of the challenges, as the DME and transporter expression pattern resembles that of native intestinal tissue. Engineering advances may improve such models to support longer-term applications and meet end-user needs. Biochemical characterization and transcriptomic, proteomic, and functional endpoints of emerging novel intestinal models, when referenced to native human tissue, can provide greater confidence and increased utility in drug discovery and development.

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Evaluation of fasted and fed state simulated and human intestinal fluids as solvent system in the Ussing chambers model to explore food effects on intestinal permeability

Cited by 41 publications

References 74 publications

Altered duodenal bile salt concentration and receptor expression in functional dyspepsia

Altered duodenal bile salt concentration and receptor expression in functional dyspepsia

Assessment of Passive Intestinal Permeability Using an Artificial Membrane Insert System

Physiologically Relevant, Humanized Intestinal Systems to Study Metabolism and Transport of Small Molecule Therapeutics

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