Your search keyword '"Patrick Augustijns"' showing total 410 results

1. The Dynamic Intestinal Absorption Model (Diamod®), an in vitro tool to study the interconnected kinetics of gastrointestinal solubility, supersaturation, precipitation, and intestinal permeation processes of oral drugs

Author

Frédéric Moens, Gies Vandevijver, Anke De Blaiser, Adam Larsson, Fabio Spreafico, Patrick Augustijns, and Massimo Marzorati

Subjects

Diamod®, Gastrointestinal dissolution, Intestinal permeation, Solubility-permeability interplay, Itraconazole, Indinavir sulfate, Pharmacy and materia medica, RS1-441

Abstract

This study aimed at developing the Diamod® as a dynamic gastrointestinal transfer model with physically interconnected permeation. The Diamod® was validated by studying the impact of the intraluminal dilution of a cyclodextrin-based itraconazole solution and the negative food effect for indinavir sulfate for which clinical data are available demonstrating that the systemic exposure was strongly mediated by interconnected solubility, precipitation, and permeation processes. The Diamod® accurately simulated the impact of water intake on the gastrointestinal behavior of a Sporanox® solution. Water intake significantly decreased the duodenal solute concentrations of itraconazole as compared to no intake of water. Despite this duodenal behavior the amount of permeated itraconazole was not affected by water intake as observed in vivo. Next to this, the Diamod® accurately simulated the negative food effect for indinavir sulfate. Different fasted and fed state experiments demonstrated that this negative food effect was mediated by an increased stomach pH, entrapment of indinavir in colloidal structures and the slower gastric emptying of indinavir under fed state conditions. Therefore, it can be concluded that the Diamod® is a useful in vitro model to mechanistically study the gastrointestinal performance of drugs.

Published

2023

2. The oral protease inhibitor (PF-07321332) protects Syrian hamsters against infection with SARS-CoV-2 variants of concern

Author

Rana Abdelnabi, Caroline S. Foo, Dirk Jochmans, Laura Vangeel, Steven De Jonghe, Patrick Augustijns, Raf Mols, Birgit Weynand, Thanaporn Wattanakul, Richard M. Hoglund, Joel Tarning, Charles E. Mowbray, Peter Sjö, Fanny Escudié, Ivan Scandale, Eric Chatelain, and Johan Neyts

Subjects

Science

Abstract

There is an urgent need for anti-virals targeting SARS-CoV-2. One of the most promising viral targets is the main protease of SARS-CoV-2, which is essential for viral replication and has no human analogue. Here, Abdelnabi et al. show that one of the most promising anti-virals (PF-07321332), currently in clinical trials, protects against SARS-CoV-2 alpha, beta and delta variant infection and provide evidence of reduced transmission.

Published

2022

3. Challenges in Permeability Assessment for Oral Drug Product Development

Author

Mirko Koziolek, Patrick Augustijns, Constantin Berger, Rodrigo Cristofoletti, David Dahlgren, Janneke Keemink, Pär Matsson, Fiona McCartney, Marco Metzger, Mario Mezler, Janis Niessen, James E. Polli, Maria Vertzoni, Werner Weitschies, and Jennifer Dressman

Subjects

permeability, drug absorption, oral drug delivery, in vitro, in silico, in vivo, Pharmacy and materia medica, RS1-441

Abstract

Drug permeation across the intestinal epithelium is a prerequisite for successful oral drug delivery. The increased interest in oral administration of peptides, as well as poorly soluble and poorly permeable compounds such as drugs for targeted protein degradation, have made permeability a key parameter in oral drug product development. This review describes the various in vitro, in silico and in vivo methodologies that are applied to determine drug permeability in the human gastrointestinal tract and identifies how they are applied in the different stages of drug development. The various methods used to predict, estimate or measure permeability values, ranging from in silico and in vitro methods all the way to studies in animals and humans, are discussed with regard to their advantages, limitations and applications. A special focus is put on novel techniques such as computational approaches, gut-on-chip models and human tissue-based models, where significant progress has been made in the last few years. In addition, the impact of permeability estimations on PK predictions in PBPK modeling, the degree to which excipients can affect drug permeability in clinical studies and the requirements for colonic drug absorption are addressed.

Published

2023

4. Correction: Van der Veken et al. Gastrointestinal Fluid Volumes in Pediatrics: A Retrospective MRI Study. Pharmaceutics 2022, 14, 1935

Author

Matthias Van der Veken, Michael Aertsen, Joachim Brouwers, Cordula Stillhart, Neil Parrott, and Patrick Augustijns

Subjects

n/a, Pharmacy and materia medica, RS1-441

Abstract

In the original publication [...]

Published

2023

5. Investigating Tacrolimus Disposition in Paediatric Patients with a Physiologically Based Pharmacokinetic Model Incorporating CYP3A4 Ontogeny, Mechanistic Absorption and Red Blood Cell Binding

Author

Matthias Van der Veken, Joachim Brouwers, Agustos Cetin Ozbey, Kenichi Umehara, Cordula Stillhart, Noël Knops, Patrick Augustijns, and Neil John Parrott

Subjects

tacrolimus, PBPK modelling, absorption, paediatrics, ontogeny, Pharmacy and materia medica, RS1-441

Abstract

Tacrolimus is a crucial immunosuppressant for organ transplant patients, requiring therapeutic drug monitoring due to its variable exposure after oral intake. Physiologically based pharmacokinetic (PBPK) modelling has provided insights into tacrolimus disposition in adults but has limited application in paediatrics. This study investigated age dependency in tacrolimus exposure at the levels of absorption, metabolism, and distribution. Based on the literature data, a PBPK model was developed to predict tacrolimus exposure in adults after intravenous and oral administration. This model was then extrapolated to the paediatric population, using a unique reference dataset of kidney transplant patients. Selecting adequate ontogeny profiles for hepatic and intestinal CYP3A4 appeared critical to using the model in children. The best model performance was achieved by using the Upreti ontogeny in both the liver and intestines. To mechanistically evaluate the impact of absorption on tacrolimus exposure, biorelevant in vitro solubility and dissolution data were obtained. A relatively fast and complete release of tacrolimus from its amorphous formulation was observed when mimicking adult or paediatric dissolution conditions (dose, fluid volume). In both the adult and paediatric PBPK models, the in vitro dissolution profiles could be adequately substituted by diffusion-layer-based dissolution modelling. At the level of distribution, sensitivity analysis suggested that differences in blood plasma partitioning of tacrolimus may contribute to the variability in exposure in paediatric patients.

Published

2023

6. Characterization of Aspirated Duodenal Fluids from Parkinson’s Disease Patients

Author

Tom de Waal, Joachim Brouwers, Philippe Berben, Talia Flanagan, Jan Tack, Wim Vandenberghe, Tim Vanuytsel, and Patrick Augustijns

Subjects

Parkinson’s disease, duodenal fluid composition, drug absorption, gastrointestinal fluid aspiration, clinical study, Pharmacy and materia medica, RS1-441

Abstract

Parkinson’s disease, one of the most common neurodegenerative diseases, may not only affect the motor system, but also the physiology of the gastrointestinal tract. Delayed gastric emptying, impaired motility and altered intestinal bacteria are well-established consequences of the disease, which can have a pronounced effect on the absorption of orally administered drugs. In contrast, no studies have been performed into the composition of intestinal fluids. It is not unlikely that Parkinson’s disease also affects the composition of intestinal fluids, a critical factor in the in vitro and in silico simulation of drug dissolution, solubilization and absorption. In the current study, duodenal fluids were aspirated from Parkinson’s disease (PD) patients and age-matched healthy controls (healthy controls, HC) consecutively in fasted and fed conditions. The fluids were then characterized for pH, buffer capacity, osmolality, total protein, phospholipids, bile salts, cholesterol and lipids. In a fasted state, the intestinal fluid composition was highly similar in PD patients and healthy controls. In general, the same was true for fed-state fluids, apart from a slightly slower and less pronounced initial change in factors directly affected by the meal (i.e., buffer capacity, osmolality, total protein and lipids) in PD patients. The absence of a fast initial increase for these factors immediately after meal intake, as was observed in healthy controls, might result from slower gastric emptying in PD patients. Irrespective of the prandial state, a higher relative amount of secondary bile salts was observed in PD patients, potentially indicating altered intestinal bacterial metabolism. Overall, the data from this study indicate that only minor disease-specific adjustments in small intestinal fluid composition should be considered when simulating intestinal drug absorption in PD patients.

Published

2023

7. The combined treatment of Molnupiravir and Favipiravir results in a potentiation of antiviral efficacy in a SARS-CoV-2 hamster infection model

Author

Rana Abdelnabi, Caroline S. Foo, Suzanne J.F. Kaptein, Xin Zhang, Thuc Nguyen Dan Do, Lana Langendries, Laura Vangeel, Judith Breuer, Juanita Pang, Rachel Williams, Valentijn Vergote, Elisabeth Heylen, Pieter Leyssen, Kai Dallmeier, Lotte Coelmont, Arnab K. Chatterjee, Raf Mols, Patrick Augustijns, Steven De Jonghe, Dirk Jochmans, Birgit Weynand, and Johan Neyts

Subjects

SARS-CoV-2, Antivirals, Molnupiravir, Favipiravir, hamsters, coronavirus, Medicine, Medicine (General), R5-920

Abstract

Background: Favipiravir and Molnupiravir, orally available antivirals, have been reported to exert antiviral activity against SARS-CoV-2. First efficacy data have been recently reported in COVID-19 patients. Methods: We here report on the combined antiviral effect of both drugs in a SARS-CoV-2 Syrian hamster infection model. The infected hamsters were treated twice daily with the vehicle (the control group) or a suboptimal dose of each compound or a combination of both compounds. Findings: When animals were treated with a combination of suboptimal doses of Molnupiravir and Favipiravir at the time of infection, a marked combined potency at endpoint is observed. Infectious virus titers in the lungs of animals treated with the combination are reduced by ∼5 log10 and infectious virus are no longer detected in the lungs of >60% of treated animals. When start of treatment was delayed with one day a reduction of titers in the lungs of 2.4 log10 was achieved. Moreover, treatment of infected animals nearly completely prevented transmission to co-housed untreated sentinels. Both drugs result in an increased mutation frequency of the remaining viral RNA recovered from the lungs of treated animals. In the combo-treated hamsters, an increased frequency of C-to-T mutations in the viral RNA is observed as compared to the single treatment groups which may explain the pronounced antiviral potency of the combination. Interpretation: Our findings may lay the basis for the design of clinical studies to test the efficacy of the combination of Molnupiravir/Favipiravir in the treatment of COVID-19. Funding: stated in the acknowledgment.

Published

2021

8. Gastrointestinal Fluid Volumes in Pediatrics: A Retrospective MRI Study

Author

Matthias Van der Veken, Michael Aertsen, Joachim Brouwers, Cordula Stillhart, Neil Parrott, and Patrick Augustijns

Subjects

MRI, biorelevant dissolution, PBPK, gastric fluid, intestinal fluid, pediatrics, Pharmacy and materia medica, RS1-441

Abstract

The volume and distribution of fluids available in the gastrointestinal (GI) tract may substantially affect oral drug absorption. Magnetic resonance imaging (MRI) has been used in the past to quantify these fluid volumes in adults and its use is now being extended to the pediatric population. The present research pursued a retrospective, explorative analysis of existing clinical MRI data generated for pediatric patients. Images of 140 children from all pediatric subpopulations were analyzed for their resting GI fluid volumes in fasting conditions. In general, an increase in fluid volume as a function of age was observed for the stomach, duodenum, jejunum, and small intestine (SI) as a whole. No specific pattern was observed for the ileum and colon. Body mass index (BMI), body weight, body height, and SI length were evaluated as easy-to-measure clinical estimators of the gastric and SI fluid volumes. Although weight and height were identified as the best estimators, none performed ideally based on the coefficient of determination (R2). Data generated in this study can be used as physiologically relevant input for biorelevant in vitro tests and in silico models tailored to the pediatric population, thereby contributing to the efficient development of successful oral drug products for children.

Published

2022

9. Leveraging Oral Drug Development to a Next Level: Impact of the IMI-Funded OrBiTo Project on Patient Healthcare

Author

Bart Hens, Patrick Augustijns, Hans Lennernäs, Mark McAllister, and Bertil Abrahamsson

Subjects

IMI, EFPIA, oral biopharmaceutical tools, pharmacokinetic, oral absorption, patient health care, Medicine (General), R5-920

Abstract

A thorough understanding of the behavior of drug formulations in the human gastrointestinal (GI) tract is essential when working in the field of oral drug development in a pharmaceutical company. For orally administered drug products, various GI processes, including disintegration of the drug formulation, drugrelease, dissolution, precipitation, degradation, dosage form transit and permeation, dictate absorption into the systemic circulation. These processes are not always fully captured in predictive in vitro and in silico tools, as commonly applied in the pre-clinical stage of formulation drug development. A collaborative initiative focused on the science of oral biopharmaceutics was established in 2012 between academic institutions and industrial companies to innovate, optimize and validate these in vitro and in silico biopharmaceutical tools. From that perspective, the predictive power of these models can be revised and, if necessary, optimized to improve the accuracy toward predictions of the in vivo performance of orally administered drug products in patients. The IMI/EFPIA-funded “Oral Bioavailability Tools (OrBiTo)” project aimed to improve our fundamental understanding of the GI absorption process. The gathered information was integrated into the development of new (or already existing) laboratory tests and computer-based methods in order to deliver more accurate predictions of drug product behavior in a real-life setting. These methods were validated with the use of industrial data. Crucially, the ultimate goal of the project was to set up a scientific framework (i.e., decision trees) to guide the use of these new tools in drug development. The project aimed to facilitate and accelerate the formulation development process and to significantly reduce the need for animal experiments in this area as well as for human clinical studies in the future. With respect to the positive outcome for patients, high-quality oral medicines will be developed where the required dose is well-calculated and consistently provides an optimal clinical effect. In a first step, this manuscript summarizes the setup of the project and how data were collected across the different work packages. In a second step, case studies of how this project contributed to improved knowledge of oral drug delivery which can be used to develop improved products for patients will be illustrated.

Published

2021

10. Chloroquine, an Anti-Malaria Drug as Effective Prevention for Hantavirus Infections

Author

Valentijn Vergote, Lies Laenen, Raf Mols, Patrick Augustijns, Marc Van Ranst, and Piet Maes

Subjects

hantavirus, Andes virus, prophylactic treatment, osmotic pump, Syrian hamster animal model, chloroquine (CQ), Microbiology, QR1-502

Abstract

We investigated whether chloroquine can prevent hantavirus infection and disease in vitro and in vivo, using the Hantaan virus newborn C57BL/6 mice model and the Syrian hamster model for Andes virus. In vitro antiviral experiments were performed using Vero E6 cells, and Old World and New World hantavirus species. Hantavirus RNA was detected using quantitative RT-PCR. For all hantavirus species tested, results indicate that the IC50 of chloroquine (mean 10.2 ± 1.43 μM) is significantly lower than the CC50 (mean 260 ± 2.52 μM) yielding an overall selectivity index of 25.5. We also investigated the potential of chloroquine to prevent death in newborn mice after Hantaan virus infection and its antiviral effect in the hantavirus Syrian hamster model. For this purpose, C57Bl/6 mother mice were treated subcutaneously with daily doses of chloroquine. Subsequently, 1-day-old suckling mice were inoculated intracerebrally with 5 x 102 Hantaan virus particles. In litters of untreated mothers, none of the pups survived challenge. The highest survival rate (72.7% of pups) was found when mother mice were administered a concentration of 10 mg/kg chloroquine. Survival rates declined in a dose-dependent manner, with 47.6% survival when treated with 5 mg/kg chloroquine, and 4.2% when treated with 1 mg/kg chloroquine. Assessing the antiviral therapeutic and prophylactic effect of chloroquine in the Syrian hamster model was done using two different administration routes (intraperitoneally and subcutaneously using an osmotic pump system). Evaluating the prophylactic effect, a delay in onset of disease was noted and for the osmotic pump, 60% survival was observed. Our results show that chloroquine can be highly effective against Hantaan virus infection in newborn mice and against Andes virus in Syrian hamsters.

Published

2021

11. Application of In Vivo Imaging Techniques and Diagnostic Tools in Oral Drug Delivery Research

Author

Stefan Senekowitsch, Philipp Schick, Bertil Abrahamsson, Patrick Augustijns, Thomas Gießmann, Hans Lennernäs, Christophe Matthys, Luca Marciani, Xavier Pepin, Alan Perkins, Maximilian Feldmüller, Sarah Sulaiman, Werner Weitschies, Clive G. Wilson, Maura Corsetti, and Mirko Koziolek

Subjects

biopharmaceutics, imaging tools, in vivo, pharmacokinetics, aspiration, salivary tracer technique, Pharmacy and materia medica, RS1-441

Abstract

Drug absorption following oral administration is determined by complex and dynamic interactions between gastrointestinal (GI) physiology, the drug, and its formulation. Since many of these interactions are not fully understood, the COST action on “Understanding Gastrointestinal Absorption-related Processes (UNGAP)” was initiated in 2017, with the aim to improve the current comprehension of intestinal drug absorption and foster future developments in this field. In this regard, in vivo techniques used for the characterization of human GI physiology and the intraluminal behavior of orally administered dosage forms in the GI tract are fundamental to gaining deeper mechanistic understanding of the interplay between human GI physiology and drug product performance. In this review, the potential applications, advantages, and limitations of the most important in vivo techniques relevant to oral biopharmaceutics are presented from the perspectives of different research fields.

Published

2022

12. Investigating the Mechanisms behind the Positive Food Effect of Abiraterone Acetate: In Vitro and Rat In Situ Studies

Author

Marlies Braeckmans, Patrick Augustijns, Raf Mols, Cécile Servais, and Joachim Brouwers

Subjects

abiraterone acetate, solubility, permeability, AMI-system, rat in situ intestinal perfusion, food effect, Pharmacy and materia medica, RS1-441

Abstract

The anticancer agent abiraterone suffers from an extensive positive food effect after oral intake of the prodrug abiraterone acetate (Zytiga). The underlying processes determining postprandial abiraterone absorption were investigated in this study. The impact of lipids and lipid digestion products on (i) the solubility of abiraterone acetate and abiraterone, (ii) the conversion of abiraterone acetate to abiraterone, and (iii) the passive permeation of abiraterone was determined in vitro. The interaction of abiraterone acetate and abiraterone with vesicles and colloidal structures in the simulated fed state media containing undigested lipids and lipid digestion products enhanced the solubility of both compounds but limited the esterase-mediated hydrolysis of abiraterone acetate and the potential of abiraterone to permeate. Rat in situ intestinal perfusion experiments with a suspension of abiraterone acetate in static fed state simulated media identified abiraterone concentrations in the perfusate as the main driving force for absorption. However, experiments with ongoing lipolysis in the perfusate highlighted the importance of including lipid digestion as a dynamic process when studying postprandial abiraterone absorption. Future research may employ the in situ perfusion model to study postprandial drug absorption from a dynamic lipolysis-mediated intestinal environment to provide reference data for the optimisation of relevant in vitro models to evaluate food effects.

Published

2022

13. The Influence of Fed State Lipolysis Inhibition on the Intraluminal Behaviour and Absorption of Fenofibrate from a Lipid-Based Formulation

Author

Marlies Braeckmans, Joachim Brouwers, Danny Riethorst, Cécile Servais, Jan Tack, and Patrick Augustijns

Subjects

small intestine, drug absorption, lipolysis, lipid-based formulation, fenofibrate, aspiration, Pharmacy and materia medica, RS1-441

Abstract

The bioavailability of lipophilic drugs may or may not be increased when administered with food due to increased solubilisation in fed state gastrointestinal (GI) fluids. The in vivo interplay between drug solubilisation, lipid phase digestion and drug absorption is complex and remains poorly understood. This study aimed to investigate the role of fed state GI lipolysis on the intraluminal behaviour and absorption of fenofibrate, formulated as the lipid-based formulation Fenogal. Therefore, a crossover study was performed in healthy volunteers using orlistat as lipase inhibitor. Fenofibrate concentrations were determined in the proximal jejunum and linked to simultaneously assessed systemic fenofibric acid concentrations. Inhibition of lipolysis by orlistat resulted in a faster onset of absorption in 4 out of 6 volunteers, reflected by a decrease in systemic Tmax between 20 and 140 min. In addition, the increase of undigested lipids present in the small intestine upon orlistat co-administration sustained drug solubilisation for a longer period, resulting in higher fenofibrate concentrations in the jejunum and improved absorption in 5 out of 6 volunteers (median AUC0–8h 8377 vs. 5832 μM.min). Sustaining drug solubilisation in the lipid phase may thus contribute to the absorption of lipophilic drugs. More research into the different mechanisms underlying lipophilic drug absorption from fed state media at different levels of digestion is warranted.

Published

2022

14. Drug Disposition in the Lower Gastrointestinal Tract: Targeting and Monitoring

Author

Glenn Lemmens, Arno Van Camp, Stephanie Kourula, Tim Vanuytsel, and Patrick Augustijns

Subjects

colonic physiology, colon drug delivery, colonic drug disposition, intestinal in vitro models, drug absorption, drug metabolising enzymes (DME), Pharmacy and materia medica, RS1-441

Abstract

The increasing prevalence of colonic diseases calls for a better understanding of the various colonic drug absorption barriers of colon-targeted formulations, and for reliable in vitro tools that accurately predict local drug disposition. In vivo relevant incubation conditions have been shown to better capture the composition of the limited colonic fluid and have resulted in relevant degradation and dissolution kinetics of drugs and formulations. Furthermore, drug hurdles such as efflux transporters and metabolising enzymes, and the presence of mucus and microbiome are slowly integrated into drug stability- and permeation assays. Traditionally, the well characterized Caco-2 cell line and the Ussing chamber technique are used to assess the absorption characteristics of small drug molecules. Recently, various stem cell-derived intestinal systems have emerged, closely mimicking epithelial physiology. Models that can assess microbiome-mediated drug metabolism or enable coculturing of gut microbiome with epithelial cells are also increasingly explored. Here we provide a comprehensive overview of the colonic physiology in relation to drug absorption, and review colon-targeting formulation strategies and in vitro tools to characterize colonic drug disposition.

Published

2021

15. Correction: López-Yerena, A., et al. 'Absorption and Intestinal Metabolic Profile of Oleocanthal in Rats' Pharmaceutics 2020, 12, 134

Author

Anallely López-Yerena, Anna Vallverdú-Queralt, Raf Mols, Patrick Augustijns, Rosa M. Lamuela-Raventós, and Elvira Escribano-Ferrer

Subjects

n/a, Pharmacy and materia medica, RS1-441

Abstract

The authors would like to make the following corrections to this paper [...]

Published

2020

16. Reply to 'Comment on López-Yerena et al. ‘Absorption and Intestinal Metabolic Profile of Oleocanthal in Rats’ Pharmaceutics 2020, 12, 134'

Author

Anallely López-Yerena, Anna Vallverdú-Queralt, Raf Mols, Patrick Augustijns, Rosa M. Lamuela-Raventós, and Elvira Escribano-Ferrer

Subjects

bioavailability, metabolites, in vivo study, permeability, extra virgin olive oil, Pharmacy and materia medica, RS1-441

Abstract

Recently, in February 2020, we published a study exploring the intestinal absorption and metabolism of oleocanthal (OLC) in rats. A single-pass intestinal perfusion technique (SPIP) was used, involving simultaneous sampling from the luminal perfusate and mesenteric blood. Later, comments on our published paper were released, requesting clarification of specific data. In this detailed reply, we hope to have addressed and clarified all the concerns of A. Kaddoumi and K. El Sayed and that the scientific community will benefit from both the study and the comments it has generated.

Published

2020

17. Exploring the Effect of Esomeprazole on Gastric and Duodenal Fluid Volumes and Absorption of Ritonavir

Author

Tom de Waal, Jari Rubbens, Michael Grimm, Vincent Vandecaveye, Jan Tack, Werner Weitschies, Joachim Brouwers, and Patrick Augustijns

Subjects

MRI, PPI effect, ritonavir, gastric fluid volume, intestinal fluid volume, drug absorption, Pharmacy and materia medica, RS1-441

Abstract

Proton-pump inhibitors (PPIs), frequently prescribed to lower gastric acid secretion, often exert an effect on the absorption of co-medicated drug products. A previous study showed decreased plasma levels of the lipophilic drug ritonavir after co-administration with the PPI Nexium (40 mg esomeprazole), even though duodenal concentrations were not affected. The present study explored if a PPI-induced decrease in gastrointestinal (GI) fluid volume might contribute to the reduced absorption of ritonavir. In an exploratory cross-over study, five volunteers were given a Norvir tablet (100 mg ritonavir) orally, once without PPI pre-treatment and once after a three-day pre-treatment with the PPI esomeprazole. Blood samples were collected for eight hours to assess ritonavir absorption and magnetic resonance imaging (MRI) was used to determine the gastric and duodenal fluid volumes during the first three hours after administration of the tablet. The results confirmed that PPI intake reduced ritonavir plasma concentrations by 40%. The gastric residual volume and gastric fluid volume decreased by 41% and 44% respectively, while the duodenal fluid volume was reduced by 33%. These data suggest that the PPI esomeprazole lowers the available fluid volume for dissolution, which may limit the amount of ritonavir that can be absorbed. Although additional factors may play a role, the effect of PPI intake on the GI fluid volume should be considered when simulating the absorption of poorly soluble drugs like ritonavir in real-life conditions.

Published

2020

18. Application of the Gastrointestinal Simulator (GIS) Coupled with In Silico Modeling to Measure the Impact of Coca-Cola® on the Luminal and Systemic Behavior of Loratadine (BCS Class 2b)

Author

Bart Hens, Marival Bermejo, Patrick Augustijns, Rodrigo Cristofoletti, Gregory E. Amidon, and Gordon L. Amidon

Subjects

biopharmaceutics classification system (BCS), low aqueous solubility, oral bioavailability, oral drug absorption, in silico modeling, biopredictive dissolution testing, physiologically-based biopharmaceutics modeling (PBBM), Pharmacy and materia medica, RS1-441

Abstract

In the present work, we explored if Coca-Cola® had a beneficial impact on the systemic outcome of the weakly basic drug loratadine (Wal-itin®, immediate-release formulation, 10 mg, generic drug product). To map the contribution of underlying physiological variables that may positively impact the intestinal absorption of loratadine, a multi-compartmental and dynamic dissolution device was built, namely the Gastrointestinal Simulator (GIS). The luminal behavior of one immediate-release (IR) tablet of 10 mg of loratadine was tested under four different fasted state test conditions in the GIS: (i) with 250 mL of water and applying a predetermined gastric half-life (t1/2,G) of 15 min; (ii) with 250 mL of water and applying a t1/2,G of 30 min; (iii) with 250 mL of Coca-Cola® and a t1/2,G of 15 min; (iv) with 250 mL of Coca-Cola® and a t1/2,G of 30 min. After initiating the experiments, solution concentrations and solubility were measured in the withdrawn samples, and pH was monitored. To address the impact of the present CO2 in Coca-Cola® on the disintegration time of the tablet, additional disintegration experiments were performed in a single-vessel applying tap water and sparkling water as dissolution media. These experiments demonstrated the faster disintegration of the tablet in the presence of sparkling water, as the present CO2 facilitates the release of the drug. The buffer capacity of Coca-Cola® in the presence of FaSSGF was 4-fold higher than the buffer capacity of tap water in the presence of FaSSGF. After performing the in vitro experiments, the obtained results were used as input for a two-compartmental pharmacokinetic (PK) modeling approach to predict the systemic concentrations. These simulations pointed out that (i) the present CO2 in Coca-Cola® is responsible for the enhancement in drug release and dissolution and that (ii) a delay in gastric emptying rate will sustain the supersaturated concentrations of loratadine in the intestinal regions of the GI tract, resulting in an enhanced driving force for intestinal absorption. Therefore, co-administration of loratadine with Coca-Cola® will highly likely result in an increased systemic exposure compared to co-administration of loratadine with tap water. The mechanistic insights that were obtained from this work will serve as a scientific basis to evaluate the impact of Coca-Cola® on the systemic exposure of weakly basic drugs for patients on acid-reducing agents in future work.

Published

2020

19. Absorption and Intestinal Metabolic Profile of Oleocanthal in Rats

Author

Anallely López-Yerena, Anna Vallverdú-Queralt, Raf Mols, Patrick Augustijns, Rosa M. Lamuela-Raventós, and Elvira Escribano-Ferrer

Subjects

bioavailability, metabolism, in situ perfusion, permeability, extra virgin olive oil, secoiridoids, Pharmacy and materia medica, RS1-441

Abstract

Oleocanthal (OLC), a phenolic compound of extra virgin olive oil (EVOO), has emerged as a potential therapeutic agent against a variety of diseases due to its anti-inflammatory activity. The aim of the present study is to explore its in vivo intestinal absorption and metabolism. An in situ perfusion technique in rats was used, involving simultaneous sampling from the luminal perfusate and mesenteric blood. Samples were analysed by UHPLC−MS−MS for the presence of oleocanthal (OLC) and its metabolites. OLC was mostly metabolized by phase I metabolism, undergoing hydration, hydrogenation and hydroxylation. Phase II reactions (glucuronidation of hydrogenated OLC and hydrated metabolites) were observed in plasma samples. OLC was poorly absorbed in the intestine, as indicated by the low effective permeability coefficient (2.23 ± 3.16 × 10−5 cm/s) and apparent permeability coefficient (4.12 ± 2.33 × 10−6 cm/s) obtained relative to the values of the highly permeable reference compound levofloxacin (LEV). The extent of OLC absorption reflected by the area under the mesenteric blood-time curve normalized by the inlet concentration (AUC) was also lower than that of LEV (0.25 ± 0.04 vs. 0.64 ± 0.03, respectively). These results, together with the observed intestinal metabolism, suggest that OLC has a moderate-to-low oral absorption; but higher levels of OLC are expected to reach human plasma vs. rat plasma.

Published

2020

20. The Influence of Prebiotic Arabinoxylan Oligosaccharides on Microbiota Derived Uremic Retention Solutes in Patients with Chronic Kidney Disease: A Randomized Controlled Trial.

Author

Ruben Poesen, Pieter Evenepoel, Henriette de Loor, Jan A Delcour, Christophe M Courtin, Dirk Kuypers, Patrick Augustijns, Kristin Verbeke, and Björn Meijers

Subjects

Medicine, Science

Abstract

UNLABELLED:The colonic microbial metabolism is a key contributor to uremic retention solutes accumulating in patients with CKD, relating to adverse outcomes and insulin resistance. Whether prebiotics can reduce intestinal generation of these microbial metabolites and improve insulin resistance in CKD patients not yet on dialysis remains unknown. We performed a randomized, placebo-controlled, double-blind, cross-over study in 40 patients with eGFR between 15 and 45 ml/min/1.73 m2. Patients were randomized to sequential treatment with prebiotic arabinoxylan oligosaccharides (AXOS) (10 g twice daily) and maltodextrin for 4 weeks, or vice versa, with a 4-week wash-out period between both intervention periods. Serum levels and 24h urinary excretion of p-cresyl sulfate, p-cresyl glucuronide, indoxyl sulfate, trimethylamine N-oxide and phenylacetylglutamine were determined at each time point using liquid chromatography-tandem mass spectrometry. In addition, insulin resistance was estimated by the homeostatic model assessment (HOMA-IR). A total of 39 patients completed the study. We observed no significant effect of AXOS on serum p-cresyl sulfate (P 0.42), p-cresyl glucuronide (P 0.59), indoxyl sulfate (P 0.70) and phenylacetylglutamine (P 0.41) and a small, albeit significant decreasing effect on serum trimethylamine N-oxide (P 0.04). There were neither effect of AXOS on 24h urinary excretion of p-cresyl sulfate (P 0.31), p-cresyl glucuronide (P 0.23), indoxyl sulfate (P 0.87) and phenylacetylglutamine (P 0.43), nor on 24h urinary excretion of trimethylamine N-oxide (P 0.97). In addition, we observed no significant change in HOMA-IR (P 0.93). In conclusion, we could not demonstrate an influence of prebiotic AXOS on microbiota derived uremic retention solutes and insulin resistance in patients with CKD not yet on dialysis. Further study is necessary to elucidate whether prebiotic therapy with other characteristics, higher cumulative exposure or in different patient populations may be of benefit. TRIAL REGISTRATION:Clinicaltrials.gov NCT02141815.

Published

2016

21. The Influence of Dietary Protein Intake on Mammalian Tryptophan and Phenolic Metabolites.

Author

Ruben Poesen, Henricus A M Mutsaers, Karen Windey, Petra H van den Broek, Vivienne Verweij, Patrick Augustijns, Dirk Kuypers, Jitske Jansen, Pieter Evenepoel, Kristin Verbeke, Björn Meijers, and Rosalinde Masereeuw

Subjects

Medicine, Science

Abstract

Although there has been increasing interest in the use of high protein diets, little is known about dietary protein related changes in the mammalian metabolome. We investigated the influence of protein intake on selected tryptophan and phenolic compounds, derived from both endogenous and colonic microbial metabolism. Furthermore, potential inter-species metabolic differences were studied. For this purpose, 29 healthy subjects were allocated to a high (n = 14) or low protein diet (n = 15) for 2 weeks. In addition, 20 wild-type FVB mice were randomized to a high protein or control diet for 21 days. Plasma and urine samples were analyzed with liquid chromatography-mass spectrometry for measurement of tryptophan and phenolic metabolites. In human subjects, we observed significant changes in plasma level and urinary excretion of indoxyl sulfate (P 0.004 and P 0.001), and in urinary excretion of indoxyl glucuronide (P 0.01), kynurenic acid (P 0.006) and quinolinic acid (P 0.02). In mice, significant differences were noted in plasma tryptophan (P 0.03), indole-3-acetic acid (P 0.02), p-cresyl glucuronide (P 0.03), phenyl sulfate (P 0.004) and phenylacetic acid (P 0.01). Thus, dietary protein intake affects plasma levels and generation of various mammalian metabolites, suggesting an influence on both endogenous and colonic microbial metabolism. Metabolite changes are dissimilar between human subjects and mice, pointing to inter-species metabolic differences with respect to protein intake.

Published

2015

22. MiniCD4 microbicide prevents HIV infection of human mucosal explants and vaginal transmission of SHIV(162P3) in cynomolgus macaques.

Author

Nathalie Dereuddre-Bosquet, Laurence Morellato-Castillo, Joachim Brouwers, Patrick Augustijns, Kawthar Bouchemal, Gilles Ponchel, Oscar H P Ramos, Carolina Herrera, Martha Stefanidou, Robin Shattock, Leo Heyndrickx, Guido Vanham, Pascal Kessler, Roger Le Grand, and Loïc Martin

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

In complement to an effective vaccine, development of potent anti-HIV microbicides remains an important priority. We have previously shown that the miniCD4 M48U1, a functional mimetic of sCD4 presented on a 27 amino-acid stable scaffold, inhibits a broad range of HIV-1 isolates at sub-nanomolar concentrations in cellular models. Here, we report that M48U1 inhibits efficiently HIV-1(Ba-L) in human mucosal explants of cervical and colorectal tissues. In vivo efficacy of M48U1 was evaluated in nonhuman primate (NHP) model of mucosal challenge with SHIV(162P3) after assessing pharmacokinetics and pharmacodynamics of a miniCD4 gel formulation in sexually matured female cynomolgus macaques. Among 12 females, half were treated with hydroxyethylcellulose-based gel (control), the other half received the same gel containing 3 mg/g of M48U1, one hour before vaginal route challenge with 10 AID(50) of SHIV(162P3). All control animals were infected with a peak plasma viral load of 10(5)-10(6) viral RNA (vRNA) copies per mL. In animals treated with miniCD4, 5 out of 6 were fully protected from acquisition of infection, as assessed by qRT-PCR for vRNA detection in plasma, qPCR for viral DNA detection in PBMC and lymph node cells. The only infected animal in this group had a delayed peak of viremia of one week. These results demonstrate that M48U1 miniCD4 acts in vivo as a potent entry inhibitor, which may be considered in microbicide developments.

Published

2012

23. Physiologically based biopharmaceutics modeling of regional and colon absorption in humans

Author

Christer Tannergren, Harshad Jadhav, Emma Eckernäs, Jonas Fagerberg, Patrick Augustijns, and Erik Sjögren

Subjects

Pharmaceutical Science, General Medicine, Biotechnology

Published

2023

24. Development and complications of nutritional deficiencies after bariatric surgery

Author

Patrick Augustijns, Tim Vanuytsel, Christophe Matthys, Bart Van der Schueren, and Nele Steenackers

Subjects

Nutrition and Dietetics, Medicine (miscellaneous)

Abstract

The clinical effectiveness of bariatric surgery has encouraged the use of bariatric procedures for the treatment of morbid obesity and its comorbidities, with sleeve gastrectomy and Roux-en-Y gastric bypass being the most common procedures. Notwithstanding its success, bariatric procedures are recognised to predispose the development of nutritional deficiencies. A framework is proposed that provides clarity regarding the immediate role of diet, the gastrointestinal tract and the medical state of the patient in the development of nutritional deficiencies after bariatric surgery, while highlighting different enabling resources that may contribute. Untreated, these nutritional deficiencies can progress in the short term into haematological, muscular and neurological complications and in the long term into skeletal complications. In this review, we explore the development of nutritional deficiencies after bariatric surgery through a newly developed conceptual framework. An in-depth understanding will enable the optimisation of the post-operative follow-up, including detecting clinical signs of complications, screening for laboratory abnormalities and treating nutritional deficiencies.

Published

2022

25. The impact of advanced age on gastrointestinal characteristics that are relevant to oral drug absorption: An AGePOP review

Author

Cordula Stillhart, Adam Asteriadis, Ekaterina Bocharova, Gabriel Eksteen, Fritz Harder, Jonas Kusch, Theodora Tzakri, Patrick Augustijns, Christophe Matthys, Maria Vertzoni, Werner Weitschies, and Christos Reppas

Subjects

geriatric patients, Pharmaceutical Science, Oral drug absorption, gastrointestinal physiology, older adults, advanced age

Abstract

The purpose of this review is to summarize the current knowledge on three physiological determinants of oral drug absorption, i.e., gastric emptying, volumes and composition of luminal fluids, and intestinal permeability, in the advanced age population, so that potential knowledge gaps and directions for further research efforts are identified. Published data on gastric emptying rates in older people are conflicting. Also, there are significant knowledge gaps, especially on gastric motility and emptying rates of drugs and of non-caloric fluids. Compared with younger adults, volumes of luminal contents seem to be slightly smaller in older people. Our understanding on the impact of advanced age on luminal physicochemical characteristics is, at best, very limited, whereas the impact of (co)morbidities and geriatric syndromes in the advanced age population has not been addressed to date. The available literature on the effect of advanced age on intestinal permeability is limited, and should be approached with caution, primarily due to the limitations of the experimental methodologies used. ispartof: EUROPEAN JOURNAL OF PHARMACEUTICAL SCIENCES vol:187 ispartof: location:Netherlands status: accepted

Published

2023

26. Structured solubility behaviour in bioequivalent fasted simulated intestinal fluids

Author

Qamar Abuhassan, Ibrahim Khadra, Kate Pyper, Patrick Augustijns, Joachim Brouwers, and Gavin W. Halbert

Subjects

RM, Probucol, Intestinal Absorption, Pharmaceutical Preparations, Solubility, TA164, Atazanavir Sulfate, Administration, Oral, Pharmaceutical Science, General Medicine, Hydrogen-Ion Concentration, Biotechnology

Abstract

Drug solubility in intestinal fluid is a key parameter controlling absorption after the administration of a solid oral dosage form. To measure solubility in vitro simulated intestinal fluids have been developed, but there are multiple recipes and the optimum is unknown. This situation creates difficulties during drug discovery and development research. A recent study characterised sampled fasted intestinal fluids using a multidimensional approach to derive nine bioequivalent fasted intestinal media that covered over 90% of the compositional variability. These media have been applied in this study to examine the equilibrium solubility of twenty one exemplar drugs (naproxen, indomethacin, phenytoin, zafirlukast, piroxicam, ibuprofen, mefenamic acid, furosemide, aprepitant, carvedilol, tadalafil, dipyridamole, posaconazole, atazanavir, fenofibrate, felodipine, griseofulvin, probucol, paracetamol, acyclovir and carbamazepine) to determine if consistent solubility behaviour was present. The bioequivalent media provide in the majority of cases structured solubility behaviour that is consistent with physicochemical properties and previous solubility studies. For the acidic drugs (pKa 8), basic and neutral drugs solubility is controlled by a combination of media pH and total amphiphile concentration (TAC), a consistent solubility behaviour is evident but with variation related to individual drug interactions within the media. The lowest and highest pH × TAC media identify the lowest and highest solubility in over 78% of cases. A subset of the latter category consisting of neutral and drugs non-ionised in the media pH range have been identified with a very narrow solubility range, indicating that the impact of the simulated intestinal media on their solubility is minimal. Two drugs probucol and atazanavir exhibit unusual behaviour. The study indicates that the use of two appropriate bioequivalent fasted intestinal media from the nine will identify in vitro the maximum and minimum solubility boundaries for drugs and due to the media derivation this is probably applicable in vivo. These media could be applied during discovery and development activities to provide a solubility range, which would assist placement of the drug within the BCS/DCS and rationalise drug and formulation decisions. ispartof: EUROPEAN JOURNAL OF PHARMACEUTICS AND BIOPHARMACEUTICS vol:176 pages:108-121 ispartof: location:Netherlands status: published

Published

2022

27. Composition of Gastric Fluids Under Fasting and Fed Conditions

Author

Jens Van Den Abeele and Patrick Augustijns

Published

2022

28. Fasted intestinal solubility limits and distributions applied to the biopharmaceutics and developability classification systems

Author

Qamar Abuhassan, Ibrahim Khadra, Kate Pyper, Patrick Augustijns, Joachim Brouwers, and Gavin W. Halbert

Subjects

RM, PREDICTION, Administration, Oral, Biological Availability, Acyclovir, Pharmaceutical Science, Ibuprofen, Article, Mefenamic acid, Griseofulvin, Biopharmaceutics, MEDIA, FLUIDS, DESIGN, DISSOLUTION, Furosemide, Fasted simulated intestinal fluid, Humans, ORAL-DRUG ABSORPTION, Pharmacology & Pharmacy, ComputingMethodologies_COMPUTERGRAPHICS, Science & Technology, EQUILIBRIUM SOLUBILITY, Intestinal Secretions, Dipyridamole, General Medicine, Hydrogen-Ion Concentration, Biopharmaceutics classification system, VARIABILITY, Developability classification system, Paracetamol, Intestinal Absorption, Pharmaceutical Preparations, Solubility, Life Sciences & Biomedicine, Biotechnology

Abstract

Graphical abstract, After oral administration, a drug’s solubility in intestinal fluid is an important parameter influencing bioavailability and if the value is known it can be applied to estimate multiple biopharmaceutical parameters including the solubility limited absorbable dose. Current in vitro measurements may utilise fasted human intestinal fluid (HIF) or simulated intestinal fluid (SIF) to provide an intestinal solubility value. This single point value is limited since its position in relation to the fasted intestinal solubility envelope is unknown. In this study we have applied a nine point fasted equilibrium solubility determination in SIF, based on a multi-dimensional analysis of fasted human intestinal fluid composition, to seven drugs that were previously utilised to investigate the developability classification system (ibuprofen, mefenamic acid, furosemide, dipyridamole, griseofulvin, paracetamol and acyclovir). The resulting fasted equilibrium solubility envelope encompasses literature solubility values in both HIF and SIF indicating that it measures the same solubility space as current approaches with solubility behaviour consistent with previous SIF design of experiment studies. In addition, it identifies that three drugs (griseofulvin, paracetamol and acyclovir) have a very narrow solubility range, a feature that single point solubility approaches would miss. The measured mid-point solubility value is statistically equivalent to the value determined with the original fasted simulated intestinal fluid recipe, further indicating similarity and that existing literature results could be utilised as a direct comparison. Since the multi-dimensional approach covered greater than ninety percent of the variability in fasted intestinal fluid composition, the measured maximum and minimum equilibrium solubility values should represent the extremes of fasted intestinal solubility and provide a range. The seven drugs all display different solubility ranges and behaviours, a result also consistent with previous studies. The dose/solubility ratio for each measurement point can be plotted using the developability classification system to highlight individual drug behaviours. The lowest solubility represents a worst-case scenario which may be useful in risk-based quality by design biopharmaceutical calculations than the mid-point value. The method also permits a dose/solubility ratio frequency distribution determination for the solubility envelope which permits further risk-based refinement, especially where the drug crosses a classification boundary. This novel approach therefore provides greater in vitro detail with respect to possible biopharmaceutical performance in vivo and an improved ability to apply risk-based analysis to biopharmaceutical performance. Further studies will be required to expand the number of drugs measured and link the in vitro measurements to in vivo results.

Published

2022

29. Molecular Dynamics Simulations of Self-Assembling Colloids in Fed-State Human Intestinal Fluids and Their Solubilization of Lipophilic Drugs

Author

Patrick Augustijns, Christel Bergström, Albin Parrow, and Per Larsson

Subjects

Pharmaceutical Chemistry, human intestinal fluids, micelles, Drug Discovery, lipophilic drugs, lipophilicity, Pharmaceutical Science, Molecular Medicine, molecular dynamics simulations, Farmaceutisk synteskemi

Abstract

Bioavailability of oral drugs often depends on how soluble the active pharmaceutical ingredient is in the fluid present in the small intestine. For efficient drug discovery and development, computational tools are needed for estimating this drug solubility. In this paper, we examined human intestinal fluids collected in the fed state, with coarse-grained molecular dynamics simulations. The experimentally obtained concentrations in aspirated duodenal fluids from five healthy individuals were used in three simulation sets to evaluate the importance of the initial distribution of molecules and the presence of glycerides in the simulation box when simulating the colloidal environment of the human intestinal fluid. We observed self-assembly of colloidal structures of different types: prolate, elongated, and oblate micelles, and vesicles. Glycerides were important for the formation of vesicles, and their absence was shown to induce elongated micelles. We then simulated the impact of digestion and absorption on the different colloidal types. Finally, we looked at the solubilization of three model compounds of increasing lipophilicity (prednisolone, fenofibrate, and probucol) by calculating contact ratios of drug–colloid to drug–water. Our simulation results of colloidal interactions with APIs were in line with experimental solubilization data but showed a dissimilarity to solubility values when comparing fasted-/fed-state ratios between two of the APIs. This work shows that coarse-grained molecular dynamics simulation is a promising tool for investigation of the intestinal fluids, in terms of colloidal attributes and drug solubility. Title in the list of papers of Albin Parrow's thesis: Molecular dynamics simulations of self-assembling colloids in fed state human intestinal fluids and their solubilization of lipophilic drugs

Published

2023

30. Effect of obesity on gastrointestinal transit, pressure and pH using a wireless motility capsule

Author

Gwen Falony, Sara Vieira-Silva, Christophe Matthys, Ann Meulemans, B. Van der Schueren, Matthias Lannoo, Lucas Wauters, Tim Vanuytsel, Patrick Augustijns, Jeroen Raes, Mirko Koziolek, Nele Steenackers, Werner Weitschies, Ann Mertens, and Roman Vangoitsenhoven

Subjects

Adult, Male, Adolescent, Pharmaceutical Science, Physiology, Capsules, Wireless motility capsule, Eating, Young Adult, Humans, Medicine, Obesity, Gastrointestinal Transit, Gastric emptying, business.industry, Gastrointestinal Physiology, Gastrointestinal transit, digestive, oral, and skin physiology, Capsule, General Medicine, Hydrogen-Ion Concentration, Middle Aged, medicine.disease, Cross-Sectional Studies, Gastric Emptying, Normal weight, Female, Gastrointestinal Motility, business, Biotechnology, Federal state

Abstract

Despite the increasing prevalence and medical burden of obesity, the understanding of gastrointestinal physiology in obesity is scarce, which hampers drug development.To investigate the effect of obesity and food intake on gastrointestinal transit, pressure and pH.An exploratory cross-sectional study using a wireless motility capsule (SmartPill©) was performed in 11 participants with obesity and 11 age- and gender-matched participants with normal weight (group) in fasted and fed state (visit). During the first visit, the capsule was ingested after an overnight fast. During a second visit, the capsule was ingested after a nutritional drink to simulate fed state. Linear mixed models were constructed to compare segmental gastrointestinal transit, pressure and pH between groups (obesity or control) and within every group (fasted or fed).Food intake slowed gastric emptying in both groups (both P 0.0001), though food-induced gastric contractility was higher in participants with obesity compared to controls (P = 0.02). In the small intestine, a higher contractility (P = 0.001), shorter transit (P = 0.04) and lower median pH (P = 0.002) was observed in participants with obesity compared to controls. No differences were observed for colonic measurements.Obesity has a profound impact on gastrointestinal physiology, which should be taken into account for drug development.

Published

2021

31. Effect of sleeve gastrectomy and Roux-en-Y gastric bypass on gastrointestinal physiology

Author

Nele Steenackers, Tim Vanuytsel, Patrick Augustijns, Ellen Deleus, Wies Deckers, Christophe M. Deroose, Gwen Falony, Matthias Lannoo, Ann Mertens, Raf Mols, Roman Vangoitsenhoven, Lucas Wauters, Bart Van der Schueren, and Christophe Matthys

Subjects

Pharmaceutical Science, General Medicine, Biotechnology

Abstract

Knowledge regarding the gastrointestinal physiology after sleeve gastrectomy and Roux-en-Y gastric bypass is urgently needed to understand, prevent and treat the nutritional and pharmacological complications of bariatric surgery.To investigate the effect of sleeve gastrectomy and Roux-en-Y gastric bypass on gastrointestinal motility (e.g., transit and pressure), pH, and intestinal bile acid concentration.An exploratory cross-sectional study was performed in six participants living with obesity, six participants who underwent sleeve gastrectomy, and six participants who underwent Roux-en-Y gastric bypass. During the first visit, a wireless motility capsule (SmartPill©) was ingested after an overnight fast to measure gastrointestinal transit, pH, and pressure. During the second visit, a gastric emptying scintigraphy test of a nutritional drink labeled withImmediate pouch emptying (P=0.0007) and a trend for faster GETThe anatomical alterations of sleeve gastrectomy and Roux-en-Y gastric bypass have an important impact on gastrointestinal physiology. This data confirms changes in transit and pH and provides the first evidence for altered intraluminal bile acid concentration.

Published

2022

32. Crystallization Kinetics in Fasted-State Simulated and Aspirated Human Intestinal Fluids

Author

Sreya Sarkar, Dana E. Moseson, Ahmed Elkhabaz, Joachim Brouwers, Lynne S. Taylor, Garth J. Simpson, and Patrick Augustijns

Subjects

Supersaturation, 010405 organic chemistry, Chemistry, Crystal growth, General Chemistry, Membrane transport, 010402 general chemistry, Condensed Matter Physics, 01 natural sciences, 0104 chemical sciences, Bioavailability, Crystallization kinetics, Fasted state, Chemical engineering, General Materials Science

Abstract

To enhance the bioavailability of poorly soluble therapeutics, enabling formulations that generate supersaturation are currently of great interest. There is limited knowledge of how the gastrointes...

Published

2021

33. Characterization of neonatal and infant enterostomy fluids

Author

Tom de Waal, Joachim Brouwers, Raf Mols, Ilse Hoffman, Maissa Rayyan, and Patrick Augustijns

Subjects

Pharmaceutical Science

Published

2023

34. Change in carbohydrate intake one year after Roux-en-Y gastric bypass: A prospective study

Author

Joke Vliebergh, Ina Gesquiere, Veerle Foulon, Patrick Augustijns, Matthias Lannoo, Ellen Deleus, Ann Meulemans, Chantal Mathieu, Ann Mertens, Christophe Matthys, Bart Van der Schueren, and Roman Vangoitsenhoven

Subjects

Nutrition and Dietetics, Medicine (miscellaneous), General Medicine

Abstract

Background and objectives: To investigate the effect of carbohydrate intake before laparoscopic Roux-en-Y gastric bypass (LRYGB) on body weight, body composition and glycaemic status after surgery. Methods: In a tertiary centre cohort study, dietary habits, body composition and glycaemic status were evaluated before and 3, 6 and 12 months after LRYGB. Detailed dietary food records were processed by specialized dietitians on the basis of a standard protocol. The study population was subdivided according to relative carbohydrate intake before surgery. Results: Before surgery, 30 patients had a moderate relative carbohydrate intake (26%–45%, M-CHO), a mean body mass index (BMI) of 40.4 ± 3.9 kg/m² and a mean glycated haemoglobin A1c (A1C) of 6.5 ± 1.2% compared to 20 patients with a high relative carbohydrate intake (> 45%, H-CHO), mean BMI of 40.9 ± 3.7 kg/m² (non-significant, NS) and a mean A1C of 6.2% (NS). One year after surgery, body weight, body composition and glycaemic status were similar in the M-CHO (n = 25) and H-CHO groups (n = 16), despite less caloric intake in the H-CHO group (1317 ± 285 g vs. 1646 ± 345 g in M-CHO, p

Published

2023

35. Insight into the Colonic Disposition of Sulindac in Humans

Author

Jan Snoeys, Joachim Brouwers, Tim Vanuytsel, Patrick Augustijns, and Glenn Lemmens

Subjects

Colorectal cancer, Pharmaceutical Science, 02 engineering and technology, Absorption (skin), Pharmacology, 030226 pharmacology & pharmacy, Intestinal absorption, 03 medical and health sciences, Sulindac, 0302 clinical medicine, Pharmacokinetics, Humans, Medicine, business.industry, Anti-Inflammatory Agents, Non-Steroidal, Cancer, 021001 nanoscience & nanotechnology, medicine.disease, digestive system diseases, Drug development, Celecoxib, Colonic Neoplasms, Colorectal Neoplasms, 0210 nano-technology, business, medicine.drug

Abstract

NSAIDs such as celecoxib and sulindac play a critical role in the treatment of colorectal cancer, yet it is not understood how sufficiently high concentrations are reached in colonic tissue. We previously demonstrated that an incomplete small intestinal absorption of celecoxib enables gut driven drug accumulation in caecal tissue, which is most likely needed for inducing remission. However, a multistage dissolution experiment suggested a more extensive absorption of sulindac relative to celecoxib, though still incomplete. To study whether caecal accumulation of sulindac is solely plasma driven or also gut driven, we performed an exploratory clinical study in healthy volunteers. After intake of a tablet of sulindac (200 mg; Arthrocine), two colonoscopies (1.0–2.5 h, and 6.0–7.5 h after drug intake) were performed to assess concentrations of sulindac and metabolites in plasma, caecal tissue and caecal contents. We observed that sulindac, even without the use of a colon-targeted delivery strategy, can arrive at the colonic lumen due to incomplete absorption and biliary excretion, and that the microbiota can catalyse the production of sulindac sulfide, which then accumulates in a high and local manner in the colonic tissue. These data can be relevant for drug development in the treatment of colorectal adenomas and cancer.

Published

2021

36. Molecular Dynamics Simulations on Interindividual Variability of Intestinal Fluids: Impact on Drug Solubilization

Author

Patrick Augustijns, Albin Parrow, Per Larsson, and Christel A. S. Bergström

Subjects

Administration, Oral, Pharmaceutical Science, 02 engineering and technology, Research & Experimental Medicine, 030226 pharmacology & pharmacy, Micelle, Pharmaceutical Sciences, PHASES, Colloid, Molecular dynamics, 0302 clinical medicine, Drug Discovery, LECITHIN, Pharmacology & Pharmacy, Solubility, media_common, MD simulations, Chemistry, 021001 nanoscience & nanotechnology, Small molecule, Healthy Volunteers, Body Fluids, INSIGHTS, Medicine, Research & Experimental, Molecular Medicine, 0210 nano-technology, Life Sciences & Biomedicine, BEHAVIOR, Drug, micelles, Duodenum, media_common.quotation_subject, MODELS, Biological Availability, Molecular Dynamics Simulation, Article, COLLOIDAL STRUCTURES, 03 medical and health sciences, Humans, Particle Size, BILE-SALT, Science & Technology, MICELLES, AGGREGATION, Farmaceutiska vetenskaper, Affinities, intestinal fluids, Bioavailability, Biological Variation, Population, drug solubility, Biophysics, MARTINI FORCE-FIELD, coarse-grained simulations

Abstract

Efficient delivery of oral drugs is dependent on their solubility in human intestinal fluid, a complex and dynamic fluid that contains colloidal structures composed of small molecules. These structures solubilize poorly water-soluble compounds, increasing their apparent solubility, and possibly their bioavailability. In this study, we conducted coarse-grained molecular dynamics simulations with data from duodenal fluid samples previously acquired from five healthy volunteers. In these simulations, we observed the self-assembly of mixed micelles of bile salts, phospholipids, and free fatty acids. The micelles were ellipsoids with a size range of 4-7 nm. Next, we investigated micelle affinities of three model drugs. The affinities in our simulation showed the same trend as literature values for the solubility enhancement of drugs in human intestinal fluids. This type of simulations is useful for studies of events and interactions taking place in the small intestinal fluid. ispartof: MOLECULAR PHARMACEUTICS vol:17 issue:10 pages:3837-3844 ispartof: location:United States status: published

Published

2020

37. Biorelevant Two-Stage In Vitro Testing for rDCS Classification and in PBPK Modeling–Case Example Ritonavir

Author

Patrick Augustijns, Sumit Arora, Tom Fiolka, Jens Van Den Abeele, and Jennifer B. Dressman

Subjects

Drug, Physiologically based pharmacokinetic modelling, media_common.quotation_subject, Pharmacokinetic modeling, Administration, Oral, Pharmaceutical Science, 02 engineering and technology, In Vitro Techniques, Models, Biological, 030226 pharmacology & pharmacy, 03 medical and health sciences, 0302 clinical medicine, Pharmacokinetics, medicine, Computer Simulation, Solubility, media_common, Ritonavir, Chemistry, Oral Powder, 021001 nanoscience & nanotechnology, Intestinal Absorption, Drug development, 0210 nano-technology, Biological system, medicine.drug

Abstract

Biorelevant two-stage in vitro testing is increasingly used as a tool for various applications in drug development. Three important applications of two-stage in vitro testing are the classification of weakly basic drug compounds as part of the refined Developability Classification System, the prediction of intraluminal drug concentrations in the gastrointestinal tract and the prediction of plasma concentration profiles using physiologically based pharmacokinetic modeling. For the weakly basic, antiretroviral drug ritonavir, two-stage testing is triggered as a customized investigation in the refined Developability Classification System classification process to assess whether the drug could supersaturate and precipitate when exposed to the steep change in pH that occurs during drug transfer from the stomach into the small intestine. It was shown that for 2 Norvir® formulations, a tablet and an oral powder formulation, the two-stage test yielded similar results to the more complex “transfer” model with regard to the supersaturation and precipitation behavior of these amorphous solid dispersion formulations. Furthermore, solubility and two-stage data were mechanistically modeled in the in vitro data Analysis Toolkit and the results used as input parameters for a physiologically based pharmacokinetic model built in the Simcyp Simulator.

Published

2020

38. Orlistat disposition in the human jejunum and the effect of lipolysis inhibition on bile salt concentrations and composition

Author

Marlies Braeckmans, Joachim Brouwers, Raf Mols, Cécile Servais, Jan Tack, and Patrick Augustijns

Subjects

Bile Acids and Salts, Orlistat, Jejunum, Fenofibrate, Intestinal Absorption, Lipolysis, Pharmaceutical Science, Humans, Lipids, Micelles

Abstract

The lipolysis-mediated postprandial small intestinal environment is known to influence the solubilisation and subsequent absorption of lipophilic drugs. In a previously performed small-scale clinical study in healthy volunteers, co-administration of the lipase inhibitor orlistat increased jejunal solubilisation and systemic absorption of fenofibrate after intake of the lipid-based formulation Fenogal. In the present study, the jejunal disposition of the locally acting orlistat was assessed and linked to fenofibrate solubilisation. In addition, the effect of orlistat-induced lipolysis inhibition on bile salt concentrations and composition was evaluated. Orlistat was distributed predominantly in the lipid layer, as indicated by a 5- to 14-fold higher AUC

Published

2022

39. Assessment of food effects during clinical development

Author

Zahari Vinarov, James Butler, Filippos Kesisoglou, Mirko Koziolek, and Patrick Augustijns

Subjects

Pharmaceutical Science

Published

2023

40. The effect of esomeprazole on the upper GI tract release and systemic absorption of mesalazine from colon targeted formulations

Author

Arno Van Camp, Tim Vanuytsel, Joachim Brouwers, and Patrick Augustijns

Subjects

Upper Gastrointestinal Tract, Cross-Over Studies, Colon, Pharmaceutical Science, Humans, Esomeprazole, Mesalamine, Absorption, Physiological

Abstract

The aim of the present study was to investigate the effect of coadministration of the proton pump inhibitor (PPI) esomeprazole on the upper GI tract behavior and systemic exposure of mesalazine from two mechanistically different colon targeted delivery systems: Claversal (pH-dependent release) and Pentasa (prolonged release). To this end, gastric, jejunal and systemic concentrations of mesalazine and its metabolite N-acetyl mesalazine were monitored in 5 healthy volunteers following oral intake of Pentasa or Claversal with or without PPI pre-treatment (cross-over study). Our exploratory study demonstrated that pre-treatment with a PPI may affect the release and absorption of mesalazine from formulations with different modified release mechanisms. Upon intake of Claversal, the onset of mesalazine absorption was accelerated substantially by PPI pre-treatment. While the PPI-induced increase in pH initiated the disintegration process already in the upper GI tract, the release of mesalazine started beyond the proximal jejunum. Upon intake of Pentasa, PPI pre-treatment seemed to increase the systemic exposure, even though the underlying mechanism could not be revealed yet. The faster release of mesalazine in the GI tract and/or the increased systemic absorption following PPI pre-treatment may reduce the ability of mesalazine to reach the colon. Future research assessing mesalazine disposition in the lower GI tract is warranted.

Published

2021

41. Integration of advanced methods and models to study drug absorption and related processes: An UNGAP perspective

Author

Clive G. Wilson, Leon Aarons, Patrick Augustijns, Joachim Brouwers, Adam S. Darwich, Tom De Waal, Grzegorz Garbacz, Simone Hansmann, Dagmara Hoc, Anela Ivanova, Mirko Koziolek, Christos Reppas, Philipp Schick, Maria Vertzoni, J. Arturo García-Horsman, Regenerative pharmacology group, and Division of Pharmacology and Pharmacotherapy

Subjects

Male, RM, Pharmaceutical Science, Administration, Oral, Molecular dynamics, Models, Biological, Pharmaceutical Sciences, Gastrointestinal tract, In silico models of absorption, Oral drug product development, Humans, Computer Simulation, In vitro models of absorpt, COVID-19, Farmaceutiska vetenskaper, Pharmacometric modelling, Scintigraphy, Gastrointestinal Tract, Human intestinal fluid, Intestinal Absorption, Pharmaceutical Preparations, Solubility, Gastrointestinal Absorption, 3121 General medicine, internal medicine and other clinical medicine, Nuclear imaging

Abstract

Funding Information: AI acknowledges the support of projects icp009 (ALKOOL) of PRACE-ICEI (grant agreement 800858) for awarding access to Piz Daint, at the Swiss National Supercomputing Centre (CSCS), Switzerland and BG05M2OP001–1.001–0004 (UNITe) of the Bulgarian Ministry of Education and Science. For further details on points raised in this article, please contact aivanova@chem.uni-sofia.bg. Funding Information: Acknowledgements. JAGH is supported by the Biocenter Finland, the Helsinki Institute of Life Sciences, and the Faculty of Pharmacy, University of Helsinki. Publisher Copyright: © 2021 The Authors This collection of contributions from the European Network on Understanding Gastrointestinal Absorption-related Processes (UNGAP) community assembly aims to provide information on some of the current and newer methods employed to study the behaviour of medicines. It is the product of interactions in the immediate pre-Covid period when UNGAP members were able to meet and set up workshops and to discuss progress across the disciplines. UNGAP activities are divided into work packages that cover special treatment populations, absorption processes in different regions of the gut, the development of advanced formulations and the integration of food and pharmaceutical scientists in the food-drug interface. This involves both new and established technical approaches in which we have attempted to define best practice and highlight areas where further research is needed. Over the last months we have been able to reflect on some of the key innovative approaches which we were tasked with mapping, including theoretical, in silico, in vitro, in vivo and ex vivo, preclinical and clinical approaches. This is the product of some of us in a snapshot of where UNGAP has travelled and what aspects of innovative technologies are important. It is not a comprehensive review of all methods used in research to study drug dissolution and absorption, but provides an ample panorama of current and advanced methods generally and potentially useful in this area. This collection starts from a consideration of advances in a priori approaches: an understanding of the molecular properties of the compound to predict biological characteristics relevant to absorption. The next four sections discuss a major activity in the UNGAP initiative, the pursuit of more representative conditions to study lumenal dissolution of drug formulations developed independently by academic teams. They are important because they illustrate examples of in vitro simulation systems that have begun to provide a useful understanding of formulation behaviour in the upper GI tract for industry. The Leuven team highlights the importance of the physiology of the digestive tract, as they describe the relevance of gastric and intestinal fluids on the behaviour of drugs along the tract. This provides the introduction to microdosing as an early tool to study drug disposition. Microdosing in oncology is starting to use gamma-emitting tracers, which provides a link through SPECT to the next section on nuclear medicine. The last two papers link the modelling approaches used by the pharmaceutical industry, in silico to Pop-PK linking to Darwich and Aarons, who provide discussion on pharmacometric modelling, completing the loop of molecule to man.

Published

2021

42. The oral protease inhibitor (PF-07321332) protects Syrian hamsters against infection with SARS-CoV-2 variants of concern

Author

Johan Neyts, Thanaporn Wattanakul, Rana Abdelnabi, Birgit Weynand, Ivan Scandale, Steven De Jonghe, Patrick Augustijns, Raf Mols, Fanny Escudie, Charles E. Mowbray, Caroline Shi-Yan Foo, Joel Tarning, Dirk Jochmans, Laura Vangeel, Peter Sjö, Eric Chatelain, and Richard M. Hoglund

Subjects

Viral protease, business.industry, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), fungi, Medicine, Alpha (ethology), Protease inhibitor (pharmacology), Nasal administration, Human airway, Pharmacology, business, Syrian hamsters, In vitro

Abstract

There is an urgent need for potent and selective antivirals against SARS-CoV-2. Pfizer developed PF-07321332 (PF-332), a potent inhibitor of the main viral protease (Mpro, 3CLpro) that can be dosed orally; the compound is in clinical development. We demonstrate that PF-332 exerts equipotent in vitro activity against the four SARS-CoV-2 variants of concerns (VoC) and can completely arrest replication of the alpha variant in primary human airway epithelial cells grown at the air-liquid interface. Treatment of Syrian hamsters with PF-332 (250 mg/kg, twice daily) completely protected the animals against intranasal infection with the beta (B.1.351) and delta (B.1.617.2) SARS-CoV-2 variants. Moreover, treatment of SARS-CoV-2 (B.1.617.2) infected animals with PF-332 completely prevented transmission to untreated co-housed sentinels. The trough drug concentration at this efficacious dose were above the in vitro efficacious concentrations.

Published

2021

43. The combined treatment of Molnupiravir and Favipiravir results in a potentiation of antiviral efficacy in a SARS-CoV-2 hamster infection model

Author

Pieter Leyssen, Johan Neyts, Rana Abdelnabi, Lana Langendries, Birgit Weynand, Kai Dallmeier, Valentijn Vergote, Xin Zhang, Raf Mols, Elisabeth Heylen, Thuc Nguyen Dan Do, Judith Breuer, Arnab K. Chatterjee, Suzanne J.F. Kaptein, Lotte Coelmont, Laura Vangeel, Juanita Pang, Patrick Augustijns, Steven De Jonghe, Dirk Jochmans, Caroline S. Foo, and Rachel Williams

Subjects

Medicine (General), Hamster, Cytidine, Pharmacology, Favipiravir, medicine.disease_cause, Hydroxylamines, Antiviral Agents, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, 0302 clinical medicine, R5-920, Medicine, Potency, Animals, Mutation frequency, Lung, 030304 developmental biology, Coronavirus, 0303 health sciences, Favipiravir, hamsters, coronavirus, Mesocricetus, business.industry, Transmission (medicine), SARS-CoV-2, COVID-19, Long-term potentiation, General Medicine, Viral Load, Antivirals, Amides, 3. Good health, COVID-19 Drug Treatment, Titer, Disease Models, Animal, Treatment Outcome, Pyrazines, RNA, Viral, Drug Therapy, Combination, Female, business, Molnupiravir, 030217 neurology & neurosurgery

Abstract

BACKGROUND: Favipiravir and Molnupiravir, orally available antivirals, have been reported to exert antiviral activity against SARS-CoV-2. First efficacy data have been recently reported in COVID-19 patients. METHODS: We here report on the combined antiviral effect of both drugs in a SARS-CoV-2 Syrian hamster infection model. The infected hamsters were treated twice daily with the vehicle (the control group) or a suboptimal dose of each compound or a combination of both compounds. FINDINGS: When animals were treated with a combination of suboptimal doses of Molnupiravir and Favipiravir at the time of infection, a marked combined potency at endpoint is observed. Infectious virus titers in the lungs of animals treated with the combination are reduced by ∼5 log10 and infectious virus are no longer detected in the lungs of >60% of treated animals. When start of treatment was delayed with one day a reduction of titers in the lungs of 2.4 log10 was achieved. Moreover, treatment of infected animals nearly completely prevented transmission to co-housed untreated sentinels. Both drugs result in an increased mutation frequency of the remaining viral RNA recovered from the lungs of treated animals. In the combo-treated hamsters, an increased frequency of C-to-T mutations in the viral RNA is observed as compared to the single treatment groups which may explain the pronounced antiviral potency of the combination. INTERPRETATION: Our findings may lay the basis for the design of clinical studies to test the efficacy of the combination of Molnupiravir/Favipiravir in the treatment of COVID-19. FUNDING: stated in the acknowledgment. ispartof: EBIOMEDICINE vol:72 ispartof: location:Netherlands status: published

Published

2021

44. The impact of inflammation on the expression of drug transporters and metabolic enzymes in colonic tissue from ulcerative colitis patients

Author

Tom de Waal, Niklas Handin, Joachim Brouwers, Marc Ferrante, Séverine Vermeire, Tim Vanuytsel, Per Artursson, and Patrick Augustijns

Subjects

Inflammation, Colon, Humans, Membrane Transport Proteins, Pharmaceutical Science, Colitis, Ulcerative, Intestinal Mucosa

Abstract

The intestinal tract forms an important barrier against xenobiotics while allowing nutrients to pass. In ulcerative colitis (UC), a chronic inflammatory bowel disease, this barrier function is impaired leading to an abnormal immune response and inflammation of the colonic mucosa. Transporter proteins and metabolic enzymes are an integral part of the protective barrier in the gut and play an important role in the disposition of nutrients, toxins and oral drugs. In this study, the protein expression of 13 transporters and 13 enzymes was determined in the sigmoid and rectum of UC patients in endoscopic remission and during active inflammation. In inflamed conditions (endoscopic Mayo sub-score 1, 2 or 3), a significant decrease (q 0.05) was observed in the median expression of the transporters P-gp (0.046 vs 0.529 fmol/µg protein), MRP4 (0.003 vs 0.023 fmol/µg protein) and MCT1 (0.287 vs 1.090 fmol/µg protein), and the enzymes CYP3A5 (0.031 vs 0.046 fmol/µg protein) and UGT2B7 (0.083 vs 0.176 fmol/µg protein). Moreover, during severe inflammation, the decrease was even more pronounced. Expression levels of other proteins were not altered during inflammation (e.g., OATP2B1, CYP3A4, CYP2B6 and UGT2B15). The results suggest a decreased transport and metabolism of xenobiotics in the colon of UC patients during active inflammation potentially altering local drug concentrations and thus treatment outcome.

Published

2022

45. Specific contributions of segmental transit times to gut microbiota composition

Author

Sara Vieira-Silva, Christophe Matthys, Bart Van der Schueren, Lucas Wauters, Patrick Augustijns, Nele Steenackers, Tim Vanuytsel, Gwen Falony, and Jeroen Raes

Subjects

biology, digestive, oral, and skin physiology, Gastroenterology, Zoology, Transit time, Gut flora, biology.organism_classification, Gastrointestinal Microbiome, Feces, Amplicon sequencing, Humans, Enterotype, intestinal bacteria, Microbiome, Bacteroides, Gut Microbiota, gastrointestinal transit, Alistipes, Akkermansia muciniphila

Abstract

Background and aims Gut transit time is a key modulator of host–microbiome interactions, yet this is often overlooked, partly because reliable methods are typically expensive or burdensome. The aim of this single-arm, single-blinded intervention study is to assess (1) the relationship between gut transit time and the human gut microbiome, and (2) the utility of the ‘blue dye’ method as an inexpensive and scalable technique to measure transit time. Methods We assessed interactions between the taxonomic and functional potential profiles of the gut microbiome (profiled via shotgun metagenomic sequencing), gut transit time (measured via the blue dye method), cardiometabolic health and diet in 863 healthy individuals from the PREDICT 1 study. Results We found that gut microbiome taxonomic composition can accurately discriminate between gut transit time classes (0.82 area under the receiver operating characteristic curve) and longer gut transit time is linked with specific microbial species such as Akkermansia muciniphila, Bacteroides spp and Alistipes spp (false discovery rate-adjusted p values

Published

2021

46. Best practices in current models mimicking drug permeability in the gastrointestinal tract - An UNGAP review

Author

Joseph P. O'Shea, Patrick Augustijns, Martin Brandl, David J. Brayden, Joachim Brouwers, Brendan T. Griffin, René Holm, Ann-Christin Jacobsen, Hans Lennernäs, Zahari Vinarov, and Caitriona M. O'Driscoll

Subjects

oral biopharmaceutics, Pharmaceutical Science, Administration, Oral, In vitro models, Intestinal permeability, Farmaceutiska vetenskaper, Models, Biological, Permeability, Biopharmaceutics, In vivo models, Gastrointestinal Tract, Pharmaceutical Sciences, Intestinal Absorption, Pharmaceutical Preparations, Solubility, In silico models, Humans, Oral absorption, In silico models, oral biopharmaceutics

Abstract

The absorption of orally administered drug products is a complex, dynamic process, dependant on a range of biopharmaceutical properties; notably the aqueous solubility of a molecule, stability within the gastrointestinal tract (GIT) and permeability. From a regulatory perspective, the concept of high intestinal permeability is intrinsically linked to the fraction of the oral dose absorbed. The relationship between permeability and the extent of absorption means that experimental models of permeability have regularly been used as a surrogate measure to estimate the fraction absorbed. Accurate assessment of a molecule's intestinal permeability is of critical importance during the pharmaceutical development process of oral drug products, and the current review provides a critique of in vivo, in vitro and ex vivo approaches. The usefulness of in silico models to predict drug permeability is also discussed and an overview of solvent systems used in permeability assessments is provided. Studies of drug absorption in humans are an indirect indicator of intestinal permeability, but both in vitro and ex vivo tools provide initial screening approaches and are important tools for assessment of permeability in drug development. Continued refinement of the accuracy of in silico approaches and their validation with human in vivo data will facilitate more efficient characterisation of permeability earlier in the drug development process and will provide useful inputs for integrated, end-to-end absorption modelling. European Commission Horizon 2020 Science Foundation Ireland CÚRAM Centre for Medical Devices AMBER Centre for Advanced Materials and BioEngineering Research

Published

2021

47. Co-existing colloidal phases of human duodenal aspirates: Intraindividual fluctuations and interindividual variability in relation to molecular composition

Author

Martin Brandl, Joachim Brouwers, Mette Sloth Bohsen, Patrick Augustijns, Philipp A. Elvang, Paul C. Stein, Danny Riethorst, and Annette Bauer-Brandl

Subjects

Gastrointestinal, Molecular composition, Clinical Biochemistry, Phospholipid, Pharmaceutical Science, Fractionation, Bile salts, Field-flow fractionation, 01 natural sciences, Micelle, Analytical Chemistry, Bile Acids and Salts, Diffusion, Human bile, Colloid, chemistry.chemical_compound, Dynamic light scattering, Drug Discovery, Humans, Colloids, Particle Size, Phospholipids, Micelles, Spectroscopy, Field flow fractionation, Chromatography, 010405 organic chemistry, Chemistry, Vesicle, 010401 analytical chemistry, Light scattering, Fasting, Dynamic Light Scattering, Fractionation, Field Flow, Body Fluids, 0104 chemical sciences, Solubility

Abstract

We investigated the ultrastructural pattern of colloidal phases in human duodenal fluids. Aspirates were collected from three volunteers in both fasted and fed nutritional states. Analysis methods comprised the combination of asymmetric flow field-flow fractionation (AF4) and multi-angle laser light scattering (MALLS). Furthermore, dynamic light scattering (DLS) and diffusion-ordered NMR spectroscopy (DOSY-NMR) were employed as alternative analytical approaches for comparison. By AF4/MALLS, up to four, and in some cases up to five distinct co-existing fractions could be differentiated in the sub-micron size-range, which, in accordance with a previous study (Elvang et al., 2018), may be assigned to three main types, namely small bile salt micelles, intermediate size mixed bile salt/phospholipid micelles and large phospholipid aggregates / vesicles. Although more or less the same colloidal phases were found to co-exist in all aspirates, their prevalence was found to vary, both over time and between the three individual human volunteers. Any uniform changes of patterns of colloidal phases over time, however, could not be identified. On the other hand, prevalence of specific colloidal phases was identified for aspirates of individual volunteers, which correlated reasonably well with the prevalence of certain lipid species in their molecular composition. It remains to be investigated whether such prevalence of specific colloidal phases influences drug solubilizing capacity as well as drug absorption. If so, this may help to better understand the substantial inter-individual variability seen in many drug absorption profiles.

Published

2019

48. Predicting iron absorption from an effervescent iron supplement in obese patients before and after Roux-en-Y gastric bypass: a preliminary study

Author

Christophe Matthys, Matthias Lannoo, Nele Steenackers, Ann Mertens, Patrick Augustijns, Ann Gils, Jan de Hoon, Ina Gesquiere, Veerle Foulon, and Bart Van der Schueren

Subjects

Adult, Male, medicine.medical_specialty, medicine.medical_treatment, Gastric Bypass, Cmax, Administration, Oral, Iron supplement, 010501 environmental sciences, 01 natural sciences, Biochemistry, Gastroenterology, Inorganic Chemistry, 03 medical and health sciences, 0302 clinical medicine, Pharmacokinetics, Hepcidin, Internal medicine, medicine, Humans, Effervescent tablet, Ferrous Compounds, 0105 earth and related environmental sciences, biology, medicine.diagnostic_test, business.industry, nutritional and metabolic diseases, Iron deficiency, Middle Aged, medicine.disease, Absorption, Physiological, Obesity, Morbid, Ferritin, Dietary Supplements, biology.protein, Serum iron, Molecular Medicine, Female, business, 030217 neurology & neurosurgery, Tablets

Abstract

BACKGROUND & AIMS: Oral iron absorption is hampered in obese and bariatric patients, especially after Roux-en-Y gastric bypass (RYGB). As a result, iron deficiency, which is common in both patient groups, can be difficult to treat by oral supplements, often necessitating a switch to parenteral administration. The aim of this study was to find possible predictors of the extent of absorption of an effervescent iron gluconate oral supplement, which enables to pre-emptively identify those patients in which oral supplementation is likely to fail. METHODS: The pharmacokinetic properties of 695 mg effervescent iron gluconate (80 mg Fe2+) were assessed in 13 obese patients (female = 10; mean age ± SD: 45.2 ± 12.5years) pre- and six months post-RYGB by measuring serum iron concentrations during 24 hours and by calculating the adjusted for baseline AUC0-24h, Cmax and Tmax. A multivariate regression analysis was performed to investigate the effect of hepcidin concentration, iron and hematologic indices, personal and anthropometric characteristics on iron absorption. Subsequently, Receiver Operating Characteristic (ROC) curves were used to propose the cut-off value for hepcidin concentrations above which obese patients are unlikely to benefit from oral iron supplementation. Data are expressed as mean ± SD. RESULTS: Low iron status persisted after surgery as there was no significant difference observed in TSAT (17.3 ± 5.2 vs. 20.2 ± 6.6%), ferritin (91.8 ± 68.6 vs. 136.2 ± 176.9 μg/L) and hepcidin concentration (32.0 ± 30.1 vs. 28.3 ± 21.3 ng/mL) after RYGB. The absorption of effervescent iron gluconate was similar pre- and post-RYGB [AUC0-24h,pre-RYGB: 28.6 ± 10.8 μg/dL*h; AUC0-24h,post-RYGB: 27.5 ± 9.11 μg/dL*h (P = 0.84)]. Post-RYGB, iron AUC0-24h showed a strong negative correlation with both hepcidin concentrations and TSAT (R=-0.51; P = 0.08 and R=-0.81; P = 0.001), respectively. Pre-RYGB, there was a clear trend for the same negative correlations for hepcidin concentrations and TSAT (R=-0.47; P = 0.11 ;R=-0.41; P = 0.16), respectively. Taking pre-and post-RYGB data together, the negative correlations were confirmed for hepcidin concentrations and TSAT (R=-0.54; P = 0.004; R=-0.60; P = 0.001), respectively. The AUCROC = 0.87 (95%CI 0.71; 1.00) showed an optimal sensitivity/specificity cut-off at hepcidin concentrations of 26.8 ng/mL. CONCLUSIONS: The iron AUC0-24h showed a negative correlation with the hepcidin concentration and TSAT of obese patients, in particular post-RYGB. Therefore, our data support the use of hepcidin concentration and TSAT to distinguish potential responders from non-responders for iron supplementation particularly post-RYGB. Additionally, this study showed that the pharmacokinetic properties of iron gluconate from an effervescent tablet were unaffected by RYGB-surgery. ispartof: JOURNAL OF TRACE ELEMENTS IN MEDICINE AND BIOLOGY vol:52 pages:68-73 ispartof: location:RUSSIA, St Petersburg status: published

Published

2019

49. The mechanisms of pharmacokinetic food-drug interactions - A perspective from the UNGAP group

Author

Stefano Alcaro, Mirko Koziolek, Maria Vertzoni, Abdul Basit, Marina Statelova, Petr Pavek, Patrick Augustijns, Annalisa Maruca, Marc Maliepaard, Philipp Jedamzik, Diana van Riet-Nales, Bart Hens, Christos Reppas, Maura Corsetti, Kateřina Valentová, Christopher J.H. Porter, Natalie L. Trevaskis, Neil Parrott, Jari Rubbens, Luca Marciani, Christine M. Madla, Michael Grimm, Caroline L. Hoad, and Dubravka Vitali Čepo

Subjects

Pharmaceutical Science, Administration, Oral, 02 engineering and technology, Bioinformatics, 030226 pharmacology & pharmacy, Intestinal absorption, Food-Drug Interactions, 0302 clinical medicine, Medicine, INTESTINAL LYMPHATIC TRANSPORT, Food-drug interaction, Pharmacology & Pharmacy, media_common, EXTENDED-RELEASE TABLETS, digestive, oral, and skin physiology, Drug release, 021001 nanoscience & nanotechnology, Food effect, 3. Good health, Europe, ST-JOHNS-WORT, SPLANCHNIC BLOOD-FLOW, 0210 nano-technology, Life Sciences & Biomedicine, BOWEL WATER-CONTENT, Food-drug interaction, Food effect, Oral drug delivery, Oral bioavailability, Absorption, Drug release, Metabolism, Drug, media_common.quotation_subject, Biological Availability, Absorption, 03 medical and health sciences, HUMAN GASTROINTESTINAL-TRACT, MULTIDRUG-RESISTANCE PROTEINS, Pharmacotherapy, Pharmacokinetics, Functional food, Oral bioavailability, media_common.cataloged_instance, Humans, European union, HIGH-FAT-MEAL, Science & Technology, business.industry, Bioavailability, Gastrointestinal Tract, Drug Liberation, Renal disorders Radboud Institute for Molecular Life Sciences [Radboudumc 11], Metabolism, Intestinal Absorption, Gastrointestinal Absorption, BITTER-MELON EXTRACT, Oral drug delivery, business, P-GLYCOPROTEIN ACTIVITY

Abstract

The simultaneous intake of food and drugs can have a strong impact on drug release, absorption, distribution, metabolism and/or elimination and consequently, on the efficacy and safety of pharmacotherapy. As such, food-drug interactions are one of the main challenges in oral drug administration. Whereas pharmacokinetic (PK) food-drug interactions can have a variety of causes, pharmacodynamic (PD) food-drug interactions occur due to specific pharmacological interactions between a drug and particular drinks or food. In recent years, extensive efforts were made to elucidate the mechanisms that drive pharmacokinetic food-drug interactions. Their occurrence depends mainly on the properties of the drug substance, the formulation and a multitude of physiological factors. Every intake of food or drink changes the physiological conditions in the human gastrointestinal tract. Therefore, a precise understanding of how different foods and drinks affect the processes of drug absorption, distribution, metabolism and/or elimination as well as formulation performance is important in order to be able to predict and avoid such interactions. Furthermore, it must be considered that beverages such as milk, grapefruit juice and alcohol can also lead to specific food-drug interactions. In this regard, the growing use of food supplements and functional food requires urgent attention in oral pharmacotherapy. Recently, a new consortium in Understanding Gastrointestinal Absorption-related Processes (UNGAP) was established through COST, a funding organisation of the European Union supporting translational research across Europe. In this review of the UNGAP Working group "Food-Drug Interface", the different mechanisms that can lead to pharmacokinetic food-drug interactions are discussed and summarised from different expert perspectives. ispartof: EUROPEAN JOURNAL OF PHARMACEUTICAL SCIENCES vol:134 pages:31-59 ispartof: location:Netherlands status: published

Published

2019

50. Gastrointestinal Fluid Volumes in Pediatrics: A Retrospective MRI Study

Author

Patrick Augustijns, Joachim Brouwers, Cordula Stillhart, Michael Aertsen, Neil Parrott, and Matthias Van der Veken

Subjects

gastric fluid, PBPK, Science & Technology, pediatrics, PH, PREDICTION, MODELS, Pharmaceutical Science, IN-VIVO PERFORMANCE, CROSSOVER, CHILDREN, MRI, biorelevant dissolution, intestinal fluid, RESIDUAL VOLUME, LIQUIDS, WATER, Pharmacology & Pharmacy, CLEAR FLUID, Life Sciences & Biomedicine

Abstract

The volume and distribution of fluids available in the gastrointestinal (GI) tract may substantially affect oral drug absorption. Magnetic resonance imaging (MRI) has been used in the past to quantify these fluid volumes in adults and its use is now being extended to the pediatric population. The present research pursued a retrospective, explorative analysis of existing clinical MRI data generated for pediatric patients. Images of 140 children from all pediatric subpopulations were analyzed for their resting GI fluid volumes in fasting conditions. In general, an increase in fluid volume as a function of age was observed for the stomach, duodenum, jejunum, and small intestine (SI) as a whole. No specific pattern was observed for the ileum and colon. Body mass index (BMI), body weight, body height, and SI length were evaluated as easy-to-measure clinical estimators of the gastric and SI fluid volumes. Although weight and height were identified as the best estimators, none performed ideally based on the coefficient of determination (R2). Data generated in this study can be used as physiologically relevant input for biorelevant in vitro tests and in silico models tailored to the pediatric population, thereby contributing to the efficient development of successful oral drug products for children. ispartof: PHARMACEUTICS vol:14 issue:9 ispartof: location:Switzerland status: published

Published

2022