Exploring gastrointestinal variables affecting drug and formulation behavior: Methodologies, challenges and opportunities

Hens, Bart; Corsetti, Maura; Spiller, Robin C.; Marciani, Luca; Vanuytsel, Tim; Tack, Jan; Talattof, Arjang; Amidon, Gordon L.; Koziolek, Mirko; Weitschies, Werner; Wilson, Clive G.; Bennink, Roelof J.; Brouwers, Joachim; Augustijns, Patrick

doi:10.1016/j.ijpharm.2016.11.063

Cited by 86 publications

(42 citation statements)

References 158 publications

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“…The in vitro solubility data also provided a foundation for the hypothesis that food may not affect ribociclib absorption, further supported by PBPK models for ribociclib, which were constructed and validated with clinical data from healthy volunteers and patients with cancer. Sensitivity analyses based on PBPK models of ribociclib absorption built into both the GastroPlus and Simcyp software packages showed that exposure was independent of gastric pH over the physiologic range (pH range, 1.0–8.0), consistent with the lack of impact of pH on the in vitro solubility of ribociclib in the biorelevant media. This hypothesis was then tested and confirmed by the food effect study in healthy volunteers, which showed that ribociclib PK parameters were similar in the fed or fasted state.…”

Section: Discussionmentioning

confidence: 80%

Ribociclib Bioavailability Is Not Affected by Gastric pH Changes or Food Intake: In Silico and Clinical Evaluations

Samant

Dhuria²,

et al. 2017

Clin Pharma and Therapeutics

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Ribociclib (KISQALI), a cyclin‐dependent kinase 4/6 inhibitor approved for the first‐line treatment of HR+/HER2– advanced breast cancer with an aromatase inhibitor, is administered with no restrictions on concomitant gastric pH‐elevating agents or food intake. The influence of proton pump inhibitors (PPIs) on ribociclib bioavailability was assessed using 1) biorelevant media solubility, 2) physiologically based pharmacokinetic (PBPK) modeling, 3) noncompartmental analysis (NCA) of clinical trial data, and 4) population PK (PopPK) analysis. This multipronged approach indicated no effect of gastric pH changes on ribociclib PK and served as a platform for supporting ribociclib labeling language, stating no impact of gastric pH‐altering agents on the absorption of ribociclib, without a dedicated drug–drug interaction trial. The bioequivalence of ribociclib exposure with or without a high‐fat meal was demonstrated in a clinical trial. Lack of restrictions on ribociclib dosing may facilitate better patient compliance and therefore clinical benefit.

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Section: Discussionmentioning

confidence: 80%

Ribociclib Bioavailability Is Not Affected by Gastric pH Changes or Food Intake: In Silico and Clinical Evaluations

Samant

Dhuria²,

et al. 2017

Clin Pharma and Therapeutics

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“…2,3 However, intestinal permeability is more complex than generally recognized; for example, drug permeability is location dependent and may vary in each point throughout the GIT. 4,5 The mechanisms behind this segmental-dependent permeability phenomenon include variations in the expression level of different transporters (e.g., P-glycoprotein [P-gp]), pH changes along the GIT, varying water content in different intestinal segments, 6,7 different morphologies and mucosal cell differentiation along the GIT, and so forth. 1,[8][9][10][11][12][13] For instance, upward expression pattern was shown for P-gp along the small intestine (SI), while the opposite trend was shown for MRP2, resulting in segmentaldependent drug permeability.…”

Section: Introductionmentioning

confidence: 99%

Segmental-Dependent Intestinal Drug Permeability: Development and Model Validation of In Silico Predictions Guided by In Vivo Permeability Values

Wolk

Marković

Porat

et al. 2019

Journal of Pharmaceutical Sciences

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The goal of this work was to develop an in silico model that allows predicting segmental-dependent permeability throughout the small intestine (SI). In vivo permeability of 11 model drugs in 3 SI segments (jejunum, mid-SI, ileum) was studied in rats, creating a data set that reflects the conditions throughout the SI. Then, a predictive model was developed, combining physicochemical drug properties influencing the underlying mechanism of passive permeability: Log p, polar surface area, M, H-bond count, and Log f, with microenvironmental SI conditions. Excellent correlation was evident between the predicted and experimental data (R = 0.914), with similar predictability in each SI segment. Log p and Log f were identified as the major determinants of permeability, with similar contribution. Total H-bond count was also a significant determinant, followed by polar surface area and M. Leaving out any of the model parameters decreased its predictability. The model was validated against 5 external drugs, with excellent predictability. Notably, the model was able to predict the segmental-dependent permeability of all drugs showing this trend experimentally. Model predictability was better in the high-permeability versus low-permeability range. Overall, our approach of constructing a straightforward in silico model allowed reliable predictions of segmental-dependent intestinal permeability, providing new insights into relative effects of drug-related factors and gastrointestinal environment on permeability.

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“…In the areas where current science does not allow establishing bioequivalence without in vivo studies based on the BCS (e.g., low solubility immediate‐release formulations of class II and IV, class III products with formulation difference and modified‐release products), the improvement of in vitro and modeling and simulation tools is important. Specific gaps that the GDUFA Regulatory Science research program aims to fill include direct measurement of drug concentration in the gastrointestinal (GI) tract, the role of excipients in altering drug absorption, the impact of drug release rates on metabolite formation, research into hydrodynamics and colon physiology to improve prediction of modified‐release product formulations, predictive in vitro dissolution methods, and research related to solid or amorphous dispersion of low solubility drugs . These examples are cases in which the interaction between formulation properties and GI physiological factors are critical to the prediction of in vivo product performance.…”

Section: Bioequivalence Of Orally Administered Drugsmentioning

confidence: 99%

Innovation for Generic Drugs: Science and Research Under the Generic Drug User Fee Amendments of 2012

Lionberger¹

2019

Clin Pharma and Therapeutics

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Regulatory science is science and research intended to improve decision making in a regulatory framework. Improvements in decision making can be in both accuracy (making better decisions) and in efficiency (making faster decisions). Science and research supported by the Generic Drug User Fee Amendments of 2012 (GDUFA) have focused on two innovative methodologies that work together to enable new approaches to development and review of generic drugs: quantitative models and advanced in vitro product characterization. Quantitative models faithfully represent current scientific understanding. They are tools pharmaceutical scientists and clinical pharmacologists use for making better and faster product development decisions. Advances in the in vitro product comparisons provide the measurements of product differences that are the critical input into the models. This paper outlines four areas where science and research funded by GDUFA support synergistic use of models and characterization at critical decision points during generic drug product development and review.

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Exploring gastrointestinal variables affecting drug and formulation behavior: Methodologies, challenges and opportunities

Cited by 86 publications

References 158 publications

Ribociclib Bioavailability Is Not Affected by Gastric pH Changes or Food Intake: In Silico and Clinical Evaluations

Ribociclib Bioavailability Is Not Affected by Gastric pH Changes or Food Intake: In Silico and Clinical Evaluations

Segmental-Dependent Intestinal Drug Permeability: Development and Model Validation of In Silico Predictions Guided by In Vivo Permeability Values

Innovation for Generic Drugs: Science and Research Under the Generic Drug User Fee Amendments of 2012

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