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151. Estimate of Volume/Flow Ratio of Gastrointestinal (GI) Fluids in Humans Using Pharmacokinetic Data

Author

Macheras, P. Reppas, C. Dressman, J.B.

Abstract

Based on the mixing tank and tube models for drug absorption, the apparent absorption rate constant is shown to be related to the fraction of dose absorbed as a function of the volume/flow ratio of GI fluids. This analysis applies to drugs that are absorbed according to first-order kinetics, without limitation by dissolution rate, lumenal decomposition, or first-pass metabolism. Analysis of pharmacokinetic data of drugs that fit these criteria and are absorbed to varying extents enabled the estimation of the volume/flow ratio of GI fluids in humans; it was found to be 1.6 ± 0.3 (SE) hr using a mixing tank model and 0.32 ± 0.05 hr using a tube model. These findings are discussed with respect to volume and flow parameters used in the design of various types of drug absorption studies. © 1990, Plenum Publishing Corporation. All rights reserved.

Published
1990

165. The effect of HPMC—a cholesterol-lowering agent—on oral drug absorption in dogs

Author

Reppas, C., Eleftheriou, G., Macheras, P., Symillides, M., Greenwood, D., and Dressman, J.B.

Abstract

The objective of this study was to evaluate the effects which hydroxypropylmethylcellulose (HPMC) may exert on oral drug absorption, in cases where this soluble fiber is administered to regulate blood lipid levels. Studies were conducted in vitro and in healthy female mongrel dogs using two different grades of HPMC, i.e. K8515 HPMC and ultra high molecular weight (UHMW) HPMC. The maximum plasma concentration, Cmax, of paracetamol and both the Cmax and the area under the concentration–time curve, AUC, of cimetidine were significantly decreased by the coadministration of 10 g of K8515 HPMC or 7.5 g of UHMW HPMC dissolved in 500 mL normal saline under fasting conditions. No statistically significant effects were observed on hydrochlorothiazide or mefenamic acid absorption. Based on in vitro data and previous studies it appears that reductions in gastric emptying and dissolution rate of paracetamol account for the effect observed in vivo. For cimetidine, a drug which can be absorbed from both the small and the large intestine, the indigestibility of HPMC in the colon in addition to the great reduction of dissolution rate led to reductions of both the Cmax and AUC values. The long Tmax values, even in the absence of HPMCs and the more modest reduction of the dissolution rate of hydrochlorothiazide by the HPMCs are thought to have precluded the observation of any significant alterations in the in vivo absorption profile. Owing to its erratic absorption, no statistically based conclusion could be drawn about the effects of coadministered HPMC on the oral absorption of the poorly soluble mefenamic acid. It is concluded that the effects of HPMCs on drug absorption in dogs are most pronounced for compounds with absorption profiles that are dependent on gastric emptying, i.e. compounds that are highly water soluble and that exhibit short Tmax values. Compounds with long absorption profiles appear to be less susceptible to changes in absorption behavior due to coadministration of HPMCs. Copyright © 1998 John Wiley & Sons, Ltd.

Published
1998
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167. Application of automated flow injection analysis (FIA) to dissolution studies

Author

Koupparis, M. Macheras, P. Reppas, C.

Abstract

The application of FIA to dissolution studies is described. Propantheline bromide, salicylamide and sulfamethizole were chosen as model drugs to investigate the utility of FIA method for dissolution studies. In each case the FIA system with the appropriate chemistry manifold was coupled with the rotating basket apparatus, A fully automated monitoring of dissolution rates was achieved. A complete dissolution profile in tabulated form is provided by the computer of the system at the end of the experiment. Automation of any type of solid dosage forms agitation technique can be easily acquired by adapting a FIA system. © 1984.

Published
1984

168. Dissolution and in vitro permeation behaviours of dicumarol nitrofurantoin and sulfamethizole in the presence of protein

Author

Macheras, P. Reppas, C.

Abstract

The dissolution and in vitro transport of dicumarol (BHC), nitrofurantoin (NTF), and sulfamethizole (SMT) in the presence of bovine serum albumin (BSA) and casein was studied. The presence of either protein caused varying effects in both processes for BHC and NTF. Both proteins reduced the dissolution and transport rate of BHC. A protein concentration-dependent increase in dissolution rate of NTF was observed. Although neither protein altered the transport of NTF from solutions, an increase of transport rate was noted when the transport was studied from saturated solutions. No effect was noted with SMT. The effects were attributed to the formation of casein aggregates causing an enhancement of saturation solubility of BHC and NTF. The varying intensity of binding of drugs to BSA was responsible for the influence of BSA on the rate of processes. Studies such as this are valuable in investigating the mechanisms involved in drug-food interactions. © 1987.

Published
1987

177. On the processes limiting oral drug absorption when amorphous solid dispersions are administered after a high-calorie, high-fat meal: Sporanox® pellets.

Author

Dietrich S, Dimoula M, Argyropoulos T, Ceulemans J, Goumas K, Vertzoni M, and Reppas C

Subjects
Administration, Oral, Humans, Adult, Antifungal Agents pharmacokinetics, Antifungal Agents administration & dosage, Antifungal Agents blood, Male, Intestinal Absorption, Solubility, Food-Drug Interactions, Diet, High-Fat, Intestine, Small metabolism, Viscosity, Female, Young Adult, Itraconazole pharmacokinetics, Itraconazole administration & dosage, Itraconazole blood, Itraconazole chemistry
Abstract

Objectives: 1) Identify processes limiting the arrival of itraconazole at the intestinal epithelium when Sporanox® amorphous solid dispersion (ASD) pellets are transferred from the stomach through the upper small intestine, after a high-calorie, high-fat meal. 2) Evaluate whether itraconazole concentrations in the colloidal phase of aqueous contents of the upper small intestine are useful for the assessment of dose effects in the fed state and food effects on plasma levels., Methods: Itraconazole concentrations, apparent viscosity, and solubilization capacity were measured in aspirates from the upper gastrointestinal lumen collected during a recently performed clinical study in healthy adults. Published itraconazole concentrations in plasma, after a high-calorie high-fat meal and Sporanox® ASD pellets, and in contents of the upper small intestine of healthy adults, after administration of Sporanox® ASD pellets in the fasted state, were used to achieve the second objective., Results: When Sporanox® ASD pellets (up to 200 mg) are transferred from the stomach through the upper small intestine, after a high-calorie, high-fat meal, itraconazole concentrations in the colloidal phase or the micellar phase of aqueous contents of the upper small intestine are unsaturated, in most cases. During the first 3 h post-dosing after a high-calorie, high-fat meal, the impact of dose (200 mg vs. 100 mg) on itraconazole concentrations in the colloidal phase of aqueous contents of the upper small intestine seems to underestimate the impact of dose on plasma levels. When Sporanox® ASD pellets are administered after a high-calorie, high-fat meal at the 200 mg dose level, itraconazole concentrations in the colloidal phase of aqueous contents of the upper small intestine are, on average, lower than those achieved in fasted state., Conclusions: When Sporanox® ASD pellets are transferred from the stomach to the upper small intestine after a high-calorie, high-fat meal, itraconazole's arrival at the intestinal epithelium seems to be limited by its arrival at the colloidal phase of aqueous contents of the upper small intestine. The impact of dose (100 mg vs. 200 mg) on plasma levels after a high-calorie, high-fat meal and during the gastrointestinal transfer of Sporanox® pellets requires consideration of pre-systemic itraconazole metabolism. At the 200 mg dose level, after taking into consideration differences in the volume of the contents of the upper small intestine between the fasted and the fed state during the gastrointestinal transfer of Sporanox® ASD pellets, itraconazole concentrations in the colloidal phase of aqueous contents of the upper small intestine suggest a mild negative food effect on average plasma levels; published clinical data are inconclusive., (Copyright © 2024. Published by Elsevier B.V.)

Published
2024
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178. Understanding the Conditions Under Which Drugs are Transferred from the Stomach Through the Upper Small Intestine After a High-Calorie, High-Fat Meal.

Author

Dietrich S, Ceulemans J, Hermans E, Argyropoulos T, Goumas K, Vertzoni M, and Reppas C

Subjects
Humans, Adult, Male, Female, Young Adult, Cross-Over Studies, Gastric Emptying physiology, Meals, Diet, High-Fat adverse effects, Fasting metabolism, Intestinal Absorption drug effects, Gastric Mucosa metabolism, Food-Drug Interactions, Stomach drug effects, Intestine, Small metabolism, Acetaminophen pharmacokinetics, Acetaminophen administration & dosage
Abstract

Information on the conditions under which drugs are transferred from the stomach through the upper small intestine after a high-calorie, high-fat meal is very limited. To simulate the drug presence after disintegration and arrival in the antral region, paracetamol solution and Sporanox® amorphous solid dispersion pellets at two dose levels were administered to the antrum of 8 healthy adults 30 min after administration of a high-calorie, high-fat meal on a crossover basis. The overall median buffer capacity of antral contents was estimated to be 18.0 and 24.0 mmol/ml/ΔpH when titrating with NaOH and HCl, respectively. The corresponding values for the contents of upper the small intestine were 14.0 and 16.8 mmol/ml/ΔpH, respectively. The drug transfer process from the antrum through the upper small intestine occurred with apparent first-order kinetics. The best estimate for the antral emptying half-life was 39min and 45min for paracetamol and itraconazole, respectively, the apparent volume of contents of the upper small intestine was more than double compared with previously reported values in the fasted state, the half-life of drug elimination from the upper small intestine was similar to recent estimates for highly permeable drugs in the fasted state, and the apparent volume of antral contents during the first couple of hours post drug administration was 303mL. Information collected in this study could increase the reliability of in silico and/or in vitro modelling approaches applied in clinical drug development., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2024
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179. Drug Dissolution in Oral Drug Absorption: Workshop Report.

Author

Raines K, Agarwal P, Augustijns P, Alayoubi A, Attia L, Bauer-Brandl A, Brandl M, Chatterjee P, Chen H, Yu YC, Coutant C, Coutinho AL, Curran D, Dressman J, Ericksen B, Falade L, Gao Y, Gao Z, Ghosh D, Ghosh T, Govada A, Gray E, Guo R, Hammell D, Hermans A, Jaini R, Li H, Mandula H, Men S, Milsmann J, Moldthan H, Moody R, Moseson DE, Müllertz A, Patel R, Paudel K, Reppas C, Savkur R, Schaefer K, Serajuddin A, Taylor LS, Valapil R, Wei K, Weitschies W, Yamashita S, and Polli JE

Subjects
Humans, Drug Liberation, Solubility, Water, Intestinal Absorption, Biopharmaceutics
Abstract

The in-person workshop "Drug Dissolution in Oral Drug Absorption" was held on May 23-24, 2023, in Baltimore, MD, USA. The workshop was organized into lectures and breakout sessions. Three common topics that were re-visited by various lecturers were amorphous solid dispersions (ASDs), dissolution/permeation interplay, and in vitro methods to predict in vivo biopharmaceutics performance and risk. Topics that repeatedly surfaced across breakout sessions were the following: (1) meaning and assessment of "dissolved drug," particularly of poorly water soluble drug in colloidal environments (e.g., fed conditions, ASDs); (2) potential limitations of a test that employs sink conditions for a poorly water soluble drug; (3) non-compendial methods (e.g., two-stage or multi-stage method, dissolution/permeation methods); (4) non-compendial conditions (e.g., apex vessels, non-sink conditions); and (5) potential benefit of having both a quality control method for batch release and a biopredictive/biorelevant method for biowaiver or bridging scenarios. An identified obstacle to non-compendial methods is the uncertainty of global regulatory acceptance of such methods., (© 2023. The Author(s).)

Published
2023
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180. Leveraging the use of in vitro and computational methods to support the development of enabling oral drug products: An InPharma commentary.

Author

Reppas C, Kuentz M, Bauer-Brandl A, Carlert S, Dallmann A, Dietrich S, Dressman J, Ejskjaer L, Frechen S, Guidetti M, Holm R, Holzem FL, Karlsson Ε, Kostewicz E, Panbachi S, Paulus F, Senniksen MB, Stillhart C, Turner DB, Vertzoni M, Vrenken P, Zöller L, Griffin BT, and O'Dwyer PJ

Subjects
Biopharmaceutics, Solubility, Administration, Oral, Body Fluids, Cyclodextrins
Abstract

Due to the strong tendency towards poorly soluble drugs in modern development pipelines, enabling drug formulations such as amorphous solid dispersions, cyclodextrins, co-crystals and lipid-based formulations are frequently applied to solubilize or generate supersaturation in gastrointestinal fluids, thus enhancing oral drug absorption. Although many innovative in vitro and in silico tools have been introduced in recent years to aid development of enabling formulations, significant knowledge gaps still exist with respect to how best to implement them. As a result, the development strategy for enabling formulations varies considerably within the industry and many elements of empiricism remain. The InPharma network aims to advance a mechanistic, animal-free approach to the assessment of drug developability. This commentary focuses current status and next steps that will be taken in InPharma to identify and fully utilize 'best practice' in vitro and in silico tools for use in physiologically based biopharmaceutic models., Competing Interests: Declaration of Competing Interest None., (Copyright © 2023 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published
2023
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181. Managing the clinical effects of drug-induced intestinal dysbiosis with a focus to antibiotics: Challenges and opportunities.

Author

Gnatzy L, Ismailos G, Vertzoni M, and Reppas C

Subjects
Humans, Intestines, Dysbiosis chemically induced, Dysbiosis drug therapy, Anti-Bacterial Agents pharmacology, Gastrointestinal Microbiome
Abstract

The term "intestinal dysbiosis" is used for indicating change(s) of the intestinal microbiota which have been associated with the development of diseases and the deterioration of disease treatments in humans. In this review, documented clinical effects of drug-induced intestinal dysbiosis are briefly presented, and methodologies which could be considered for the management of drug-induced intestinal dysbiosis based on clinical data are critically reviewed. Until relevant methodologies are optimized and/or their effectiveness to the general population is confirmed, and, since drug-induced intestinal dysbiosis refers predominantly to antibiotic-specific intestinal dysbiosis, a pharmacokinetically-based approach for mitigating the impact of antimicrobial therapy on intestinal dysbiosis is proposed., (Copyright © 2023. Published by Elsevier B.V.)

Published
2023
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182. The impact of advanced age on gastrointestinal characteristics that are relevant to oral drug absorption: An AGePOP review.

Author

Stillhart C, Asteriadis A, Bocharova E, Eksteen G, Harder F, Kusch J, Tzakri T, Augustijns P, Matthys C, Vertzoni M, Weitschies W, and Reppas C

Subjects
Adult, Humans, Aged, Gastric Emptying, Administration, Oral, Intestinal Absorption, Gastrointestinal Tract metabolism
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., (Copyright © 2023. Published by Elsevier B.V.)

Published
2023
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183. Screening for Differences in Early Exposure in the Fasted State with in Vitro Methodologies can be Challenging: Experience with the BioGIT System.

Author

Kostantini C, Spilioti E, Bevernage J, Ceulemans J, Hansmann S, Hellemans K, Jede C, Kourentas A, Reggane M, Shah L, Wagner C, Vertzoni M, and Reppas C

Subjects
Humans, Administration, Oral, Solubility, Suspensions, Tablets, Water, Gelatin, Gastrointestinal Tract
Abstract

The Biorelevant Gastrointestinal Transfer (BioGIT) system is a useful screening tool for assessing the impact of dose and/or formulation on early exposure after administration of immediate release or enabling drug products with a glass of water in the fasted state. The objective of this study was to investigate potential limitations. BioGIT experiments were performed with five low solubility active pharmaceutical ingredients with weakly alkaline characteristics: mebendazole (tablet and chewable tablet), Compound E (aqueous solutions, three doses), pazopanib-HCl (Votrient™ tablet, crushed Votrient™ tablet and aqueous suspension), Compound B-diHCl (hard gelatin capsule, three doses) and Compound C (hard gelatin capsule containing nanosized drug and hard gelatin capsule containing micronized drug). For all formulation or dose comparisons the ratio of mean BioGIT AUC 0-50   min values was not predictive of the ratio of mean plasma AUC 0-60   min values which became available after completion of BioGIT experiments. BioGIT experimental conditions have not been designed to simulate the gastrointestinal drug transfer process after administration of chewable tablets or aqueous solutions, therefore, BioGIT may not be useful for the assessment of intraluminal performance early after administration of such drug products. Also, based on this study, BioGIT may not be useful in investigating the impact of dose and/or formulation on early exposure when the dose is not administered with a glass of water to fasted healthy individuals or when BioGIT data are highly variable. Finally, the rapid dissolution of nanocrystals after administration of low solubility weak bases may require adjustment of the pH in the gastric compartment of BioGIT to slightly higher pH values. Limitations identified in this study for the BioGIT system may be also relevant to other in vitro systems proposed for similar evaluations., Competing Interests: Declaration of Competing Interest Authors declare no conflict of interest., (Copyright © 2023 American Pharmacists Association. Published by Elsevier Inc. All rights reserved.)

Published
2023
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184. Usefulness of the Beagle Model in the Evaluation of Paracetamol and Ibuprofen Exposure after Oral Administration to Pediatric Populations: An Exploratory Study.

Author

Statelova M, Holm R, Fotaki N, Reppas C, and Vertzoni M

Subjects
Adult, Infant, Humans, Animals, Dogs, Child, Administration, Oral, Biological Availability, Infant Formula, Suspensions, Models, Biological, Acetaminophen, Ibuprofen pharmacokinetics
Abstract

The present study aimed to explore the usefulness of beagle dogs in combination with physiologically based pharmacokinetic (PBPK) modeling in the evaluation of drug exposure after oral administration to pediatric populations at an early stage of pharmaceutical product development. An exploratory, single-dose, crossover bioavailability study in six beagles was performed. A paracetamol suspension and an ibuprofen suspension were coadministered in the fasted-state conditions, under reference-meal fed-state conditions, and under infant-formula fed-state conditions. PBPK models developed with GastroPlus v9.7 were used to inform the extrapolation of beagle data to human infants and children. Beagle-based simulation outcomes were compared with published human-adult-based simulations. For paracetamol, fasted-state conditions and reference-meal fed-state conditions in beagles appeared to provide adequate information for the applied scaling approach. Fasted-state and/or reference-meal fed-state conditions in beagles appeared suitable to simulate the performance of ibuprofen suspension in pediatric populations. Contrary to human-adult-based translations, extrapolations based on beagle data collected under infant-formula fed-state conditions appeared less useful for informing simulations of plasma levels in pediatric populations. Beagle data collected under fasted and/or reference-meal fed-state conditions appeared to be useful in the investigation of pediatric product performance of the two investigated highly permeable and highly soluble drugs in the upper small intestine. The suitability of the beagle as a preclinical model to understand pediatric drug product performance under different dosing conditions deserves further evaluation with a broader spectrum of drugs and drug products and comparisons with pediatric in vivo data.

Published
2023
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185. Usefulness of the BioGIT system in screening for differences in early exposure in the fasted state on an a priori basis.

Author

Kostantini C, Spilioti E, Bevernage J, Ceulemans J, Hansmann S, Hellemans K, Jede C, Kourentas A, Reggane M, Shah L, Wagner C, Reppas C, and Vertzoni M

Subjects
Administration, Oral, Diclofenac, Fasting, Tablets, Cross-Over Studies, Therapeutic Equivalency, Area Under Curve, Fenofibrate
Abstract

The objective of the present study was to confirm the usefulness of BioGIT data in the evaluation of the impact of dose and/or formulation on early exposure after oral administration of immediate release or enabling products of low solubility active pharmaceutical ingredients (APIs) with a glass of water in the fasted state. BioGIT experiments were performed with four APIs: Compound Α (tablet, three dose levels), Compound E (capsule PiC1, capsule PiC2 and tablet), fenofibrate (Lipidil® capsule and Lipidil 145 ONE® tablet) and Compound F (HP-β-CD aqueous solution and tablet). Based on mean plasma AUC 0-60min values which became available after completion of the BioGIT experiments, mean BioGIT AUC 0-50min values were useful for the evaluation of the impact of dose and/or formulation on early exposure. The log-transformed ratios of mean BioGIT AUC 0-50min values for two doses and/or two formulations estimated in this study and in a recent study for two diclofenac potassium products (Cataflam® tablet and Voltfast® sachet, same dose) vs. the corresponding log-transformed ratios of mean plasma AUC 0-60min values (n = 7 pairs of ratios), were included in a previously established correlation between log-transformed ratios of mean BioGIT AUC 0-50min values and log-transformed ratios of plasma AUC 0-60min values (n = 9 pairs of ratios). The correlation between log-transformed plasma AUC 0-60min ratios vs. log-transformed BioGIT AUC 0-50min ratios was confirmed (n = 16 pairs of ratios, R = 0.90). Compared with the previously established correlation the statistical characteristics were improved. Based on this study, the BioGIT system could be useful as a screening tool for assessing the impact of dose and/or formulation differences on early exposure, after administration of immediate release or enabling drug products of low solubility APIs with a glass of water in the fasted state, on an a priori basis., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published
2023
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186. Usefulness of Optimized Human Fecal Material in Simulating the Bacterial Degradation of Sulindac and Sulfinpyrazone in the Lower Intestine.

Author

Kostantini C, Arora S, Söderlind E, Ceulemans J, Reppas C, and Vertzoni M

Subjects
Bacteria, Humans, Intestines, Kinetics, Sulfinpyrazone metabolism, Sulindac metabolism
Abstract

The first aim of this study was to evaluate the usefulness of optimized human fecal material in simulating sulforeductase activity in the lower intestine by assessing bacterial degradation of sulindac and sulfinpyrazone, two sulforeductase substrates. The second aim was to evaluate the usefulness of drug degradation half-life generated in simulated colonic bacteria (SCoB) in informing PBPK models. Degradation experiments of sulfinpyrazone and of sulindac in SCoB were performed under anaerobic conditions using recently described methods. For sulfinpyrazone, the abundance of clinical data allowed for construction of a physiologically based pharmacokinetic (PBPK) model and evaluation of luminal degradation clearance determined from SCoB data. For sulindac, the availability of sulindac sulfide and sulindac sulfone standards allowed for evaluating the formation of the main metabolite, sulindac sulfide, during the experiments in SCoB. Both model compounds degraded substantially in SCoB. The PBPK model was able to adequately capture exposure of sulfinpyrazone and its sulfide metabolite in healthy subjects, in ileostomy and/or colectomy subjects, and in healthy subjects pretreated with metoclopramide by implementing degradation half-lives in SCoB to calculate intrinsic colon clearance. Degradation rates of sulindac and formation rates of sulindac sulfide in SCoB were almost identical, in line with in vivo data suggesting the sulindac sulfide is the primary metabolite in the lower intestine. Experiments in SCoB were useful in simulating sulforeductase related bacterial degradation activity in the lower intestine. Degradation half-life calculated from experiments in SCoB is proven useful for informing a predictive PBPK model for sulfinpyrazone.

Published
2022
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187. Integration of advanced methods and models to study drug absorption and related processes: An UNGAP perspective.

Author

Wilson CG, Aarons L, Augustijns P, Brouwers J, Darwich AS, De Waal T, Garbacz G, Hansmann S, Hoc D, Ivanova A, Koziolek M, Reppas C, Schick P, Vertzoni M, and García-Horsman JA

Subjects
Administration, Oral, Computer Simulation, Gastrointestinal Absorption physiology, Humans, Intestinal Absorption, Male, Models, Biological, Pharmaceutical Preparations metabolism, Solubility, COVID-19, Gastrointestinal Tract metabolism
Abstract

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., (Copyright © 2021 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2022
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188. On the usefulness of four in vitro methods in assessing the intraluminal performance of poorly soluble, ionisable compounds in the fasted state.

Author

O'Dwyer PJ, Box KJ, Imanidis G, Vertzoni M, and Reppas C

Subjects
Administration, Oral, In Vitro Techniques, Solubility, Tablets, Fasting
Abstract

A small-scale two-stage biphasic system, a small-scale two-stage dissolution-permeation system, the Erweka mini-paddle apparatus, and the BioGIT system were evaluated for their usefulness in assessing the intraluminal performance of two low solubility drugs in the fasted state, one with weakly acidic properties (tested in a salt form, diclofenac potassium) and one with weakly alkaline properties [ritonavir, tested as an amorphous solid dispersion (ASD) formulation]. In all in vitro methods, an immediate-release tablet and a powder formulation of diclofenac potassium were both rapidly dissolved in Level II biorelevant media simulating the conditions in the upper small intestine. Physiologically based biopharmaceutics (PBB) modelling for the tablet formulation resulted in a successful simulation of the average plasma profile in adults, whereas for the powder formulation modelling indicated that gastric emptying and transport through the intestinal epithelium limit the absorption rates. Detailed information on the behaviour of the ritonavir ASD formulation under both simulated gastric and upper small intestinal conditions were crucial for understanding the luminal performance. PBB modelling showed that the dissolution and precipitation parameters, estimated from the Erweka mini-paddle apparatus data and the small-scale two-stage biphasic system data, respectively, were necessary to adequately simulate the average plasma profile after administration of the ritonavir ASD formulation. Simulation of the gastrointestinal transfer process from the stomach to the small intestine was necessary to evaluate the effects of hypochlorhydric conditions on the luminal performance of the ritonavir ASD formulation. Based on this study, the selection of the appropriate in vitro method for evaluating the intraluminal performance of ionisable lipophilic drugs depends on the characteristics of the drug substance. The results suggest that for (salts of) acidic drugs (e.g., diclofenac potassium) it is only an issue of availability and ease of operation of the apparatus. For weakly alkaline substances (e.g., ritonavir), the results indicate that the dynamic dissolution process needs to be simulated, with the type of requested information (e.g., dissolution parameters, precipitation parameters, luminal concentrations) being key for selecting the most appropriate method. Regardless of the ionisation characteristics, early in the drug development process the use of small-scale systems may be inevitable, due to the limited quantities of drug substance available., (Copyright © 2021. Published by Elsevier B.V.)

Published
2022
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190. In Vitro Simulation of the Environment in the Upper Gastrointestinal Lumen After Drug Administration in the Fed State Using the TIM-1 System and Comparison With Luminal Data in Adults.

Author

Pentafragka C, Tomaszewska I, Bellmann S, Minekus M, Schilderink R, Vertzoni M, McAllister M, and Reppas C

Subjects
Adult, Computer Simulation, Duodenum, Humans, Suspensions, Intestine, Small, Stomach
Abstract

We evaluated the environment in TIM-1 luminal compartments using paracetamol and danazol solutions and suspensions and the fed state configuration. Data were compared with recently published data in healthy adults. TIM-1 experiments were performed with a 3-fold downscale. Volumes of secretions in gastric and duodenal compartments adequately reflected the luminal data in adults up to 3 h post drug dosing. pH values in duodenal and jejunal compartments adequately reflected average pH values in adults. In gastric compartment pH values where initially higher than average values in adults and reached baseline levels earlier than in adults. The environment in the TIM-1 gastric compartment and jejunal compartment adequately reflected the average total paracetamol and danazol amounts per volume of contents in the adult stomach and upper small intestine, respectively. Total bile acids concentrations in the micellar phase of contents in duodenal and jejunal compartments overestimated micellar concentrations in the upper small intestine of adults. Adjustments in gastric emptying/acid secretion rates and bile acids identities in the duodenal and jejunal compartments, and application of dynamic bile acids secretion rates are expected to further improve the relevance of luminal conditions in TIM-1 compartments with those in adults., (Copyright © 2021 American Pharmacists Association. Published by Elsevier Inc. All rights reserved.)

Published
2022
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191. Impact of gastrointestinal tract variability on oral drug absorption and pharmacokinetics: An UNGAP review.

Author

Vinarov Z, Abdallah M, Agundez JAG, Allegaert K, Basit AW, Braeckmans M, Ceulemans J, Corsetti M, Griffin BT, Grimm M, Keszthelyi D, Koziolek M, Madla CM, Matthys C, McCoubrey LE, Mitra A, Reppas C, Stappaerts J, Steenackers N, Trevaskis NL, Vanuytsel T, Vertzoni M, Weitschies W, Wilson C, and Augustijns P

Subjects
Administration, Oral, Aged, Child, Female, Food-Drug Interactions, Gastrointestinal Tract metabolism, Humans, Male, Pharmacokinetics, Intestinal Absorption, Pharmaceutical Preparations metabolism
Abstract

The absorption of oral drugs is frequently plagued by significant variability with potentially serious therapeutic consequences. The source of variability can be traced back to interindividual variability in physiology, differences in special populations (age- and disease-dependent), drug and formulation properties, or food-drug interactions. Clinical evidence for the impact of some of these factors on drug pharmacokinetic variability is mounting: e.g. gastric pH and emptying time, small intestinal fluid properties, differences in pediatrics and the elderly, and surgical changes in gastrointestinal anatomy. However, the link of colonic factors variability (transit time, fluid composition, microbiome), sex differences (male vs. female) and gut-related diseases (chronic constipation, anorexia and cachexia) to drug absorption variability has not been firmly established yet. At the same time, a way to decrease oral drug pharmacokinetic variability is provided by the pharmaceutical industry: clinical evidence suggests that formulation approaches employed during drug development can decrease the variability in oral exposure. This review outlines the main drivers of oral drug exposure variability and potential approaches to overcome them, while highlighting existing knowledge gaps and guiding future studies in this area., (Copyright © 2021 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2021
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192. Current challenges and future perspectives in oral absorption research: An opinion of the UNGAP network.

Author

Vinarov Z, Abrahamsson B, Artursson P, Batchelor H, Berben P, Bernkop-Schnürch A, Butler J, Ceulemans J, Davies N, Dupont D, Flaten GE, Fotaki N, Griffin BT, Jannin V, Keemink J, Kesisoglou F, Koziolek M, Kuentz M, Mackie A, Meléndez-Martínez AJ, McAllister M, Müllertz A, O'Driscoll CM, Parrott N, Paszkowska J, Pavek P, Porter CJH, Reppas C, Stillhart C, Sugano K, Toader E, Valentová K, Vertzoni M, De Wildt SN, Wilson CG, and Augustijns P

Subjects
Administration, Oral, Animals, Computer Simulation, Drug Compounding, Food-Drug Interactions, Humans, Pharmaceutical Preparations chemistry, Pharmaceutical Preparations metabolism, Gastrointestinal Tract metabolism, Intestinal Absorption
Abstract

Although oral drug delivery is the preferred administration route and has been used for centuries, modern drug discovery and development pipelines challenge conventional formulation approaches and highlight the insufficient mechanistic understanding of processes critical to oral drug absorption. This review presents the opinion of UNGAP scientists on four key themes across the oral absorption landscape: (1) specific patient populations, (2) regional differences in the gastrointestinal tract, (3) advanced formulations and (4) food-drug interactions. The differences of oral absorption in pediatric and geriatric populations, the specific issues in colonic absorption, the formulation approaches for poorly water-soluble (small molecules) and poorly permeable (peptides, RNA etc.) drugs, as well as the vast realm of food effects, are some of the topics discussed in detail. The identified controversies and gaps in the current understanding of gastrointestinal absorption-related processes are used to create a roadmap for the future of oral drug absorption research., Competing Interests: Declaration of Competing Interest None., (Copyright © 2021 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2021
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193. Oral biopharmaceutics tools: recent progress from partnership through the Pharmaceutical Education and Research with Regulatory Links collaboration.

Author

O'Dwyer PJ, Box KJ, Dressman J, Griffin BT, Henze LJ, Litou C, Pentafragka C, Statelova M, Vertzoni M, and Reppas C

Subjects
Administration, Oral, Animals, Biological Availability, Biopharmaceutics methods, Drug Compounding methods, Education, Pharmacy trends, Gastrointestinal Tract physiology, Humans, Intersectoral Collaboration, Models, Biological, Pharmaceutical Research trends, Swine, Drug Development education, Drug Development methods, Drug Development trends, Food-Drug Interactions physiology, Pharmacokinetics
Abstract

Objectives: To summarise key contributions of the Pharmaceutical Education and Research with Regulatory Links (PEARRL) project (2016-2020) to the optimisation of existing and the development of new biopharmaceutics tools for evaluating the in vivo performance of oral drug products during the development of new drugs and at the regulatory level., Key Findings: Optimised biopharmaceutics tools: Based on new clinical data, the composition of biorelevant media for simulating the fed state conditions in the stomach was simplified. Strategies on how to incorporate biorelevant in vitro data of bio-enabling drug products into physiologically based pharmacokinetic (PBPK) modelling were proposed. Novel in vitro biopharmaceutics tools: Small-scale two-stage biphasic dissolution and dissolution-permeation setups were developed to facilitate understanding of the supersaturation effects and precipitation risks of orally administered drugs. A porcine fasted state simulated intestinal fluid was developed to improve predictions and interpretation of preclinical results using in vitro dissolution studies. Based on new clinical data, recommendations on the design of in vitro methodologies for evaluating the GI drug transfer process in the fed state were suggested. The optimized design of in vivo studies for investigating food effects: A food effect study protocol in the pig model was established which successfully predicted the food-dependent bioavailability of two model compounds. The effect of simulated infant fed state conditions in healthy adults on the oral absorption of model drugs was evaluated versus the fasted state and the fed state conditions, as defined by regulatory agencies for adults. Using PBPK modelling, the extrapolated fasted and infant fed conditions data appeared to be more useful to describe early drug exposure in infants, while extrapolation of data collected under fed state conditions, as defined by regulators for adults, failed to capture in vivo infant drug absorption., Summary: Substantial progress has been made in developing an advanced suite of biopharmaceutics tools for streamlining drug formulation screening and supporting regulatory applications. These advances in biopharmaceutics were achieved through networking opportunities and research collaborations provided under the H2020 funded PEARRL project., (© The Author(s) 2021. Published by Oxford University Press on behalf of the Royal Pharmaceutical Society. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2021
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194. Characteristics of Contents of Lower intestine in the 65-74 Years of Age Range Could Impact the Performance of Safe and Efficacious Modified Release Products.

Author

Vertzoni M, Sulaiman S, Goumas K, Kersten E, Anlahr J, Muenster U, and Reppas C

Subjects
Aged, Cross-Over Studies, Fasting, Female, Humans, Male, Osmolar Concentration, Young Adult, Colon, Ileum
Abstract

We characterized the contents of distal ileum and proximal colon of older people from a pharmaceutical product performance perspective, under two extreme situations, i.e. 5 h after a glass of water to fasted volunteers (fasted state) and 5 h after a high-calorie, high-fat meal to fasted volunteers (fed state). Five males and three females (65-70 y) participated in a two-phase crossover study. Contents were collected via colonoscopy. In distal ileum, luminal pH was lower and buffer capacity was higher than in young adults; differences reached significance for pH in the fed state. In proximal colon, differences reached significance for pH/fasted state and for buffer capacity/both fasted and fed states. Aqueous fraction of contents contained more short chain fatty acids than previously observed in young adults. In distal ileum, osmolality was significantly higher than in young adults. In proximal colon, aqueous fraction in the fasted state was significantly lower and long chain fatty acids 5 h after meal was significantly higher than in young adults. Characteristics of contents of lower intestine that are relevant to the performance of certain modified release products differ between individuals 65-74 years old and young adults, the typical age group employed in safety and efficacy studies of oral drug products., (Copyright © 2020 American Pharmacists Association®. Published by Elsevier Inc. All rights reserved.)

Published
2021
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195. Unraveling the behavior of oral drug products inside the human gastrointestinal tract using the aspiration technique: History, methodology and applications.

Author

Augustijns P, Vertzoni M, Reppas C, Langguth P, Lennernäs H, Abrahamsson B, Hasler WL, Baker JR, Vanuytsel T, Tack J, Corsetti M, Bermejo M, Paixão P, Amidon GL, and Hens B

Subjects
Administration, Oral, Drug Liberation, Humans, Intestinal Absorption, Solubility, Gastrointestinal Tract metabolism, Pharmaceutical Preparations metabolism
Abstract

Fluid sampling from the gastrointestinal (GI) tract has been applied as a valuable tool to gain more insight into the fluids present in the human GI tract and to explore the dynamic interplay of drug release, dissolution, precipitation and absorption after drug product administration to healthy subjects. In the last twenty years, collaborative initiatives have led to a plethora of clinical aspiration studies that aimed to unravel the luminal drug behavior of an orally administered drug product. The obtained drug concentration-time profiles from different segments in the GI tract were a valuable source of information to optimize and/or validate predictive in vitro and in silico tools, frequently applied in the non-clinical stage of drug product development. Sampling techniques are presently not only being considered as a stand-alone technique but are also used in combination with other in vivo techniques (e.g., gastric motility recording, magnetic resonance imaging (MRI)). By doing so, various physiological variables can be mapped simultaneously and evaluated for their impact on luminal drug and formulation behavior. This comprehensive review aims to describe the history, challenges and opportunities of the aspiration technique with a specific focus on how this technique can unravel the luminal behavior of drug products inside the human GI tract by providing a summary of studies performed over the last 20 years. A section 'Best practices' on how to perform the studies and how to treat the aspirated samples is described. In the conclusion, we focus on future perspectives concerning this technique., (Copyright © 2020 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published
2020
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196. Characteristics of contents in the upper gastrointestinal lumen after a standard high-calorie high-fat meal and implications for the in vitro drug product performance testing conditions.

Author

Pentafragka C, Vertzoni M, Dressman J, Symillides M, Goumas K, and Reppas C

Subjects
Adult, Cross-Over Studies, Humans, Intestine, Small, Male, Osmolar Concentration, Pharmaceutical Preparations, Stomach
Abstract

Objectives: To measure the pH, buffer capacity, lipid content, bile acid content, and viscosity in the upper gastrointestinal (GI) lumen after a standard high-calorie, high-fat meal as well as the osmolality, lipid content and bile acid content in the aqueous phase of the gastric contents and the micellar phase of contents of the upper small intestine. To evaluate the implications of these findings for the composition of biorelevant media employed in vitro oral drug product performance testing representing the upper GI conditions after ingestion of the standard meal., Methods: Eight healthy male adult volunteers participated in a two-phase, crossover study in which a homogenized standard meal was administered to the antrum via the gastric port of a naso-gastro-intestinal tube. A glass of tap water and single paracetamol and danazol doses were administered to the antrum of the stomach 30 min after the initiation of meal administration (Pentafragka et al., 2020). Samples were aspirated from the antrum and the upper small intestine over the next four hours. The pH and the buffer capacity of the samples were measured immediately upon aspiration, while viscosity, osmolality, and presence of solubilizing agents were measured after storage at -70 °C., Results: The composition of gastric contents over time fluctuated less after the homogenized standard meal than after liquid meals with similar composition. Intra-subject variability of pH and buffer capacity in the stomach and in the upper small intestine was low. Mean viscosity values in the stomach at 100 s -1 were 80-800 times higher than in the fasted state for more than 3 h after the standard meal. In the upper small intestine, mean viscosity values at 100 s -1 were at least 100 times higher than in the fasted state for 4 h after the standard meal., Conclusions: Based on data collected in this study, Level I and Level II biorelevant media simulating the intragastric conditions after ingestion of a standard meal could be simplified whereas FeSSIF-V2 composition was confirmed to be representative of the composition of contents in the upper small intestine. Representative values of viscosity in the stomach and the upper small intestine and Level II composition of the aqueous phase of gastric contents, after the standard meal, are proposed for first time., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published
2020
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197. Factors Affecting Successful Extrapolation of Ibuprofen Exposure from Adults to Pediatric Populations After Oral Administration of a Pediatric Aqueous Suspension.

Author

Statelova M, Holm R, Fotaki N, Reppas C, and Vertzoni M

Subjects
Administration, Intravenous, Administration, Oral, Adult, Age Factors, Anti-Inflammatory Agents, Non-Steroidal administration & dosage, Biological Availability, Child, Child, Preschool, Computer Simulation, Datasets as Topic, Dose-Response Relationship, Drug, Fasting physiology, Female, Gastric Emptying physiology, Humans, Ibuprofen administration & dosage, Infant, Intestinal Absorption physiology, Male, Postprandial Period physiology, Solubility, Suspensions, Anti-Inflammatory Agents, Non-Steroidal pharmacokinetics, Ibuprofen pharmacokinetics, Models, Biological
Abstract

The importance of physiologically based pharmacokinetic (PBPK) model refinement with data acquired in adults using a pediatric formulation under age-relevant dosing conditions in order to extrapolate drug exposure to infants was recently demonstrated for paracetamol. In the present investigation, the aim was to evaluate the importance of similar PBPK model refinement for a low-solubility weak acid, ibuprofen, to simulate exposure across pediatric populations, i.e., infants, young children, and schoolchildren. After developing and evaluating adult disposition and oral absorption models for the aqueous suspension of ibuprofen, ibuprofen performance was extrapolated to pediatrics simulating exposure as a function of different prandial and dosing conditions: fasted conditions, reference-meal fed conditions (solid-liquid meal), and infant-formula fed conditions (homogeneous liquid). Successful predictions were achieved when employing the refined model for fasted state conditions or for fed state conditions relevant to specific age groups, i.e., infant formula for infants and reference meal for children. The present study suggested that ibuprofen performance was primarily guided by gastric emptying and showed sensitivity towards formulation characteristics and pH changes in the small intestine. Better understanding of luminal conditions in pediatrics and age-dependent ibuprofen post-absorptive processes could improve modeling confidence for ibuprofen, as well as other drugs with similar characteristics.

Published
2020
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198. Dissolution testing of modified release products with biorelevant media: An OrBiTo ring study using the USP apparatus III and IV.

Author

Reppas C, Vrettos NN, Dressman J, Andreas CJ, Miyaji Y, Brown J, Etherson K, Hanley S, Karkossa F, Karlsson E, Klein S, Maier GM, McAllister M, Mistry N, Rosenblatt K, Schäfer KJ, Smith KL, Tomaszewska I, Williams J, Winge F, and Vertzoni M

Subjects
Biological Availability, Ciprofloxacin administration & dosage, Ciprofloxacin chemistry, Drug Combinations, Humans, Hydrocortisone chemistry, Hydrocortisone pharmacokinetics, Solubility, Chemistry, Pharmaceutical methods, Ciprofloxacin pharmacokinetics, Drug Liberation physiology, Food-Drug Interactions physiology, Gastrointestinal Tract drug effects, Gastrointestinal Tract physiology
Abstract

During the OrBiTo project, our knowledge on the gastrointestinal environment has improved substantially and biorelevant media composition have been refined. The aim of this study was to propose optimized biorelevant testing conditions for modified release products, to evaluate the reproducibility of the optimized compendial apparatus III (USP apparatus III) and compendial apparatus IV (USP apparatus IV, open-loop mode) dissolution methods and to evaluate the usefulness of these methods to forecast the direction of food effects, if any, based on the results of two «ring» studies and by using two model modified release (MR) products, Ciproxin / Cipro XR and COREG CR. Six OrBiTo partners participated in each of the ring studies. All laboratories were provided with standard protocols, pure drug substance, and dose units. For the USP apparatus III, the dissolution methods applied to Ciproxin / Cipro XR, a monolithic MR product of an active pharmaceutical ingredient (API) with moderate aqueous solubility, were robust with low intra- and inter-laboratory data variability. Data from all partners were in line on a qualitative basis with food effect data in humans. For the USP apparatus IV, the dissolution methods applied to COREG CR, a multiparticulate, pH dependent, MR product of an API with low and pH dependent solubility led to high intra- and inter- laboratory data variability. Data from all partners were in line, on a qualitative basis, with the previously observed food effects in humans., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published
2020
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199. Successful Extrapolation of Paracetamol Exposure from Adults to Infants After Oral Administration of a Pediatric Aqueous Suspension Is Highly Dependent on the Study Dosing Conditions.

Author

Statelova M, Holm R, Fotaki N, Reppas C, and Vertzoni M

Subjects
Acetaminophen administration & dosage, Administration, Intravenous, Administration, Oral, Adolescent, Adult, Age Factors, Biological Availability, Biopharmaceutics methods, Body Size physiology, Child, Child, Preschool, Computer Simulation, Datasets as Topic, Dose-Response Relationship, Drug, Food-Drug Interactions, Humans, Infant, Metabolic Clearance Rate physiology, Suspensions, Acetaminophen pharmacokinetics, Gastrointestinal Absorption physiology, Models, Biological
Abstract

Extending licensed drug use to the pediatric population has become an essential part of the drug development process. Nonetheless, ethical concerns limit clinical testing in pediatric populations and data collected from oral bioavailability and food effect studies in adults are often extrapolated to the target pediatric (sub)populations. However, based on published information, food effects on drug absorption in infants may not be adequately evaluated by data collected in adults. In the present study, a physiologically based pharmacokinetic (PBPK) approach for modeling paracetamol suspension data collected in adults was proposed with the ultimate aim to investigate whether extrapolation to infants is substantially affected by the dosing conditions applied to adults. The development of the PBPK model for adults was performed using GastroPlus™ V9.7, and after scaling to infants considering physiological, anatomical, and drug clearance changes, extrapolation of the different dosing conditions was performed by applying dosing conditions dependent on changes on the paracetamol gastric emptying process. Successful simulations of previously observed plasma concentration levels in infants were achieved when extrapolating from fasted and infant formula-fed conditions data. Data collected following the reference meal appeared less useful for simulating paracetamol suspension performance in infants. The proposed methodology deserves further evaluation using high-quality clinical data both in adults and in infants.

Published
2020
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200. Novel Biphasic Lipolysis Method To Predict in Vivo Performance of Lipid-Based Formulations.

Author

O'Dwyer PJ, Box KJ, Koehl NJ, Bennett-Lenane H, Reppas C, Holm R, Kuentz M, and Griffin BT

Subjects
Biological Availability, Chemistry, Pharmaceutical methods, Humans, Intestinal Absorption physiology, Reproducibility of Results, Solubility drug effects, Soybean Oil chemistry, Lipids chemistry, Lipolysis physiology, Pharmaceutical Preparations chemistry, Pharmaceutical Preparations metabolism
Abstract

The absence of an intestinal absorption sink is a significant weakness of standard in vitro lipolysis methods, potentially leading to poor prediction of in vivo performance and an overestimation of drug precipitation. In addition, the majority of the described lipolysis methods only attempt to simulate intestinal conditions, thus overlooking any supersaturation or precipitation of ionizable drugs as they transition from the acidic gastric environment to the more neutral conditions of the intestine. The aim of this study was to develop a novel lipolysis method incorporating a two-stage gastric-to-intestinal transition and an absorptive compartment to reliably predict in vivo performance of lipid-based formulations (LBFs). Drug absorption was mimicked by in situ quantification of drug partitioning into a decanol layer. The method was used to characterize LBFs from four studies described in the literature, involving three model drugs (i.e., nilotinib, fenofibrate, and danazol) where in vivo bioavailability data have previously been reported. The results from the novel biphasic lipolysis method were compared to those of the standard pH-stat method in terms of reliability for predicting the in vivo performance. For three of the studies, the novel biphasic lipolysis method more reliably predicted the in vivo bioavailability compared to the standard pH-stat method. In contrast, the standard pH-stat method was found to produce more predictive results for one study involving a series of LBFs composed of the soybean oil, glyceryl monolinoleate (Maisine CC), Kolliphor EL, and ethanol. This result was surprising and could reflect that increasing concentrations of ethanol (as a cosolvent) in the formulations may have resulted in greater partitioning of the drug into the decanol absorptive compartment. In addition to the improved predictivity for most of the investigated systems, this biphasic lipolysis method also uses in situ analysis and avoids time- and resource-intensive sample analysis steps, thereby facilitating a higher throughput capacity and biorelevant approach for characterization of LBFs.

Published
2020
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