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3. Chemistry Manufacturing and Controls Development, Industry Reflections on Manufacture, and Supply of Pandemic Therapies and Vaccines

Author

Matthew E. Popkin, Markus Goese, Diane Wilkinson, Stuart Finnie, Talia Flanagan, Cristiana Campa, Alexandra Clinch, Andrew Teasdale, Andrew Lennard, Graham Cook, Ganapathy Mohan, and Matthew D. Osborne

Subjects
Vaccines, Pharmaceutical Science, COVID-19, Humans, Pandemics
Abstract

This publication provides some industry reflections on experiences from the Chemistry, Manufacturing, and Controls (CMC) development and manufacture and supply of vaccines and therapies in response to the COVID-19 pandemic. It integrates these experiences with the outcomes from the collaborative work between industry and regulators in recent years on innovative science- and risk-based CMC strategies to the development of new, high-quality products for unmet medical needs. The challenges for rapid development are discussed and various approaches to facilitate accelerated development and global supply are collated for consideration. Relevant regulatory aspects are reviewed, including the role of Emergency Use/Conditional Marketing Authorizations, the dialogue between sponsors and agencies to facilitate early decision-making and alignment, and the value of improving reliance/collaborative assessment and increased collaboration between regulatory authorities to reduce differences in global regulatory requirements. Five areas are highlighted for particular consideration in the implementation of strategies for the quality-related aspects of accelerated development and supply: (1) the substantial need to advance reliance or collaborative assessment; (2) the need for early decision making and streamlined engagement between industry and regulatory authorities on CMC matters; (3) the need to further facilitate 'post-approval' changes; (4) fully exploiting prior and platform knowledge; and (5) review and potential revision of legal frameworks. The recommendations in this publication are intended to contribute to the discussion on approaches that can result in earlier and greater access to high-quality pandemic vaccines and therapies for patients worldwide but could also be useful in general for innovative medicines addressing unmet medical needs.

Published
2022

4. 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
drug absorption, Parkinson’s disease, gastrointestinal fluid aspiration, Pharmaceutical Science, duodenal fluid composition, clinical study
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. ispartof: PHARMACEUTICS vol:15 issue:4 ispartof: location:Switzerland status: published

Published
2023

5. Applications of Physiologically Based Biopharmaceutics Modeling (PBBM) to Support Drug Product Quality: A Workshop Summary Report

Author

Evangelos Kotzagiorgis, Shinichi Kijima, Om Anand, Yang Zhao, Sandra Suarez-Sharp, Talia Flanagan, Min Li, Baoming Ning, Poonam Delvadia, Shefali Kakar, Amitava Mitra, Greg Rullo, Jennifer B. Dressman, Neil Parrott, Erik Sjögren, Banu S. Zolnik, Shereeni Veerasingham, Paul A. Dickinson, Gustavo Mendes Lima Santos, Tycho Heimbach, Haritha Mandula, Christophe Tistaert, Fang Wu, Kimberly Raines, Satish Sharan, Xavier Pepin, and Andrew Babiskin

Subjects
Research Report, Process management, Computer science, media_common.quotation_subject, Pharmaceutical Science, Harmonization, 02 engineering and technology, Models, Biological, 030226 pharmacology & pharmacy, Biopharmaceutics, 03 medical and health sciences, 0302 clinical medicine, Humans, Quality (business), Pharmaceutical industry, media_common, business.industry, 021001 nanoscience & nanotechnology, Clinical formulation, Pharmaceutical Preparations, Solubility, New product development, Drug product, Regulatory agency, 0210 nano-technology, business
Abstract

This report summarizes the proceedings for Day 3 of the workshop titled "Current State and Future Expectations of Translational Modeling Strategies toSupportDrug Product Development, Manufacturing Changes and Controls". From a drug product quality perspective, patient-centric product development necessitates the development of clinically relevant drug product specifications (CRDPS). In this regard, Physiologically Based Biopharmaceutics modeling (PBBM) is a viable tool to establish links between in-vitro to in-vivo data, and support with establishing CRDPS. The theme of day 3 was practical applications of PBBM to support drug product quality. In this manuscript, case studies from US FDA, EMA and pharmaceutical industry on applications of PBBM in drug product quality are summarized which include 1) regulatory agency's perspectives on establishing the safe space and achieving study waivers, 2) model-informed risk assessment on the effects of acid reducing agents, bridging of dissolution methods, food effect, and formulation selection, and 3) understanding clinical formulation performance. Breakout session discussions focused on four topics - 1) terminologies related to physiologically based modeling in support of drug product quality, 2) regulatory harmonization on evidentiary standards, 3) CRDPS approaches and 4) bridging between biorelevant and quality control (QC) dissolution methods.

Published
2021

6. IMI – Oral biopharmaceutics tools project – Evaluation of bottom-up PBPK prediction success part 4: Prediction accuracy and software comparisons with improved data and modelling strategies

Author

Alex Mattinson, David Lindley, Helena Engman, Manthena V.S. Varma, Anh-Thu Nguyen-Trung, Binfeng Xia, Xavier Pepin, Linette Ruston, Wei Zhu, Bill van Osdol, Celine Ollier, David Good, Jonathan Brown, Laurent Boulu, Talia Flanagan, Olivier Nicolas, Staffan Berg, Shanoo Budhdeo, Aarti Patel, Jan Bevernage, Handan He, Sweta Modi, Richard Barker, Claire Jackson, Christer Tannergren, Xiojun Ren, Stephane Beilles, J. Matthew Wood, Johanna Laru, Pierre Daublain, Sara Carlert, Louis Henrion, Jean-Flaubert Nguefack, Gunilla Hanisch, Eva Karlsson, Wen Lin, Shruthi Vaidhyanathan, Robert Carr, Fan Wu, Jin Zhang, Amais Ahmad, James M. Mullin, Sari Pappinen, Andrea Moir, Ke Szeto, Christine Xu, Claire Patterson, David B. Turner, Guillaume Louit, Yuya Wang, Tycho Heimbach, Richard Lloyd, Frans Franek, Masoud Jamei, Christophe Tistaert, Bertil Abrahamsson, Kerstin Julia Schäfer, Leon Aarons, Shriram M. Pathak, Adam S. Darwich, Suet Wong, Dónal Murphy, Amin Rostami-Hodjegan, Timo Korjamo, Helena Thörn, Kartrin Schmid, Michael B. Bolger, Johanna Tuunainen, and Mai Anh Nguyen

Subjects
Data Analysis, Physiologically based pharmacokinetic modelling, Databases, Factual, Administration, Oral, Pharmaceutical Science, 02 engineering and technology, Machine learning, computer.software_genre, Models, Biological, 030226 pharmacology & pharmacy, Biopharmaceutics, Pharmaceutical Sciences, 03 medical and health sciences, 0302 clinical medicine, Software, Pharmacokinetics, Humans, Clinical Trials as Topic, business.industry, Compound specific, General Medicine, Farmaceutiska vetenskaper, 021001 nanoscience & nanotechnology, Bioavailability, Intestinal Absorption, Pharmaceutical Preparations, Drug development, Performance indicator, Artificial intelligence, 0210 nano-technology, business, computer, Forecasting, Biotechnology
Abstract

Oral drug absorption is a complex process depending on many factors, including the physicochemical properties of the drug, formulation characteristics and their interplay with gastrointestinal physiology and biology. Physiological-based pharmacokinetic (PBPK) models integrate all available information on gastro-intestinal system with drug and formulation data to predict oral drug absorption. The latter together with in vitro-in vivo extrapolation and other preclinical data on drug disposition can be used to predict plasma concentration-time profiles in silico. Despite recent successes of PBPK in many areas of drug development, an improvement in their utility for evaluating oral absorption is much needed. Current status of predictive performance, within the confinement of commonly available in vitro data on drugs and formulations alongside systems information, were tested using 3 PBPK software packages (GI-Sim (ver.4.1), Simcyp® Simulator (ver.15.0.86.0), and GastroPlusTM (ver.9.0.00xx)). This was part of the Innovative Medicines Initiative (IMI) Oral Biopharmaceutics Tools (OrBiTo) project. Fifty eight active pharmaceutical ingredients (APIs) were qualified from the OrBiTo database to be part of the investigation based on a priori set criteria on availability of minimum necessary information to allow modelling exercise. The set entailed over 200 human clinical studies with over 700 study arms. These were simulated using input parameters which had been harmonised by a panel of experts across different software packages prior to conduct of any simulation. Overall prediction performance and software packages comparison were evaluated based on performance indicators (Fold error (FE), Average fold error (AFE) and absolute average fold error (AAFE)) of pharmacokinetic (PK) parameters. On average, PK parameters (Area Under the Concentration-time curve (AUC0-tlast), Maximal concentration (Cmax), half-life (t1/2)) were predicted with AFE values between 1.11 and 1.97. Variability in FEs of these PK parameters was relatively high with AAFE values ranging from 2.08 to 2.74. Around half of the simulations were within the 2-fold error for AUC0-tlast and around 90% of the simulations were within 10-fold error for AUC0-tlast. Oral bioavailability (Foral) predictions, which were limited to 19 APIs having intravenous (i.v.) human data, showed AFE and AAFE of values 1.37 and 1.75 respectively. Across different APIs, AFE of AUC0-tlast predictions were between 0.22 and 22.76 with 70% of the APIs showing an AFE > 1. When compared across different formulations and routes of administration, AUC0-tlast for oral controlled release and i.v. administration were better predicted than that for oral immediate release formulations. Average predictive performance did not clearly differ between software packages but some APIs showed a high level of variability in predictive performance across different software packages. This variability could be related to several factors such as compound specific properties, the quality and availability of information, and errors in scaling from in vitro and preclinical in vivo data to human in vivo behaviour which will be explored further. Results were compared with previous similar exercise when the input data selection was carried by the modeller rather than a panel of experts on each in vitro test. Overall, average predictive performance was increased as reflected in smaller AAFE value of 2.8 as compared to AAFE value of 3.8 in case of previous exercise. QC 20200930

Published
2020

7. A Critical Overview of the Biological Effects of Excipients (Part I): Impact on Gastrointestinal Absorption

Author

Marilyn N. Martinez, Balint Sinko, Fang Wu, Talia Flanagan, Enikő Borbás, Eleftheria Tsakalozou, and Kathleen M. Giacomini

Subjects
Excipients, Intestinal Absorption, Solubility, Pharmaceutical Science, Permeability
Abstract

Traditionally, excipients have been considered in drug development from the perspective of their influence on drug solubility, manufacturability, and ability to control in vitro and in vivo drug release. These effects have been largely evaluated through studies involving in vitro dissolution methods. However, there is a growing awareness that what had previously been considered biologically inert excipients can exert numerous in vivo effects. This includes the potential to change gastrointestinal (GI) transit time, enterocyte passive transcellular or paracellular permeability, active transport activity, or presystemic drug metabolism. In this critical overview of the biological effects of excipients (Part I), we provide a summary of select published studies that explore these various in vivo factors. We also include a table that points readers to published reviews that list a range of excipients known to have biological activity. A subsequent discussion on in vitro, in vivo, and in silico methods that can be used to explore these excipient effects is provided in a separate (Part 2) continuation of this critical overview.

Published
2022

8. Impact of Acid-Reducing Agents on Gastrointestinal Physiology and Design of Biorelevant Dissolution Tests to Reflect These Changes

Author

Jennifer B. Dressman, Sakina Sayah-Jeanne, James Mann, Talia Flanagan, Eva Karlsson, Domagoj Segregur, Matthias Hoch, David J. Carlile, Andrea Moir, and Publica

Subjects
Drug, media_common.quotation_subject, Administration, Oral, Pharmaceutical Science, 02 engineering and technology, Pharmacology, 030226 pharmacology & pharmacy, Dosage form, 03 medical and health sciences, 0302 clinical medicine, Pharmacokinetics, Oral administration, Animals, Humans, Medicine, media_common, Gastrointestinal tract, Gastric emptying, business.industry, Gastrointestinal Physiology, Stomach, 021001 nanoscience & nanotechnology, Gastrointestinal Tract, medicine.anatomical_structure, Gastric Emptying, Solubility, Antacids, 0210 nano-technology, business
Abstract

Background Of the various drug therapies that influence gastrointestinal (GI) physiology, one of the most important are the acid-reducing agents (ARAs). Because changes in GI physiology often influence the pharmacokinetics of drugs given orally, there is a need to identify in vitro methods with which such effects can be elucidated. Objective Literature concerning the effects of ARAs (antacids, H2-receptor antagonists, and proton pump inhibitors [PPIs]) on GI physiology are reviewed with the aim of identifying conditions under which drugs are released after oral administration in the fasted state. In vitro dissolution tests to mimic the effects in the stomach were designed for H2-receptor antagonists and PPIs. Conclusions The impact of ARAs on GI physiology depends on the type, duration, and amount of ARA administered as well as the location in the GI tract, with greatest impact on gastric physiology. While ARAs have a high impact on the gastric fluid pH and composition, changes in volume, viscosity, surface tension, and gastric emptying appear to be less profound. The proposed dissolution tests enable a ready comparison between dosage form performance in healthy adults and those receiving PPIs or H2-receptor antagonists.

Published
2019

9. Potential for pharmaceutical excipients to impact absorption: A mechanistic review for BCS Class 1 and 3 drugs

Author

Talia Flanagan

Subjects
Drug, Chemistry, Pharmaceutical, media_common.quotation_subject, Pharmaceutical Science, Excipient, 02 engineering and technology, 030226 pharmacology & pharmacy, Biopharmaceutics, Excipients, 03 medical and health sciences, 0302 clinical medicine, medicine, Animals, Humans, Immediate release, media_common, Chemistry, General Medicine, 021001 nanoscience & nanotechnology, Biopharmaceutics Classification System, Intestinal Absorption, Pharmaceutical Preparations, Biochemical engineering, 0210 nano-technology, Biotechnology, medicine.drug
Abstract

The potential for certain excipients to impact drug absorption is the subject of numerous publications. Reflecting this, current Biopharmaceutics Classification System (BCS) guidelines place restrictions on the level of change in excipients to be eligible for a BCS biowaiver. The degree of change permitted between test and reference formulations varies between BCS Class 1 and 3, and also across different regulatory authorities. This article reviews the literature evidence for excipients to impact drug absorption, with a particular focus on identifying effects which may be important for BCS Class 1 and 3 compounds and formulations. Literature examples were categorised according to the mechanism by which the excipient was believed to impact drug absorption, and the relevance of these mechanisms for compounds within BCS Class 1 and 3 was assessed. The likelihood of using the excipient in solid oral immediate release formulations (i.e. formulation types which would be eligible for BCS biowaivers) was also considered. Using this mechanistic and risk-based approach, potential critical excipients for BCS Class 1 and 3 compounds were identified. Based on the literature data, there are only a limited number of mechanisms by which excipients could affect the absorption of a BCS Class 3 drug. For BCS1, absorption is very unlikely to be affected by excipient changes. For many of these excipients, there is no in vivo evidence of such an effect having occurred. The risk can be mitigated to a large extent by applying some compound-specific understanding of the absorption site, rate and mechanism of the particular API under consideration.

Published
2019

10. Effects of Food and Antacids on Pharmacokinetics and Pharmacodynamics of Lesinurad, a Selective Urate Reabsorption Inhibitor

Author

Talia Flanagan, Caroline A. Lee, Shakti Valdez, Michael Gillen, David M. Wilson, Zancong Shen, and Xiaojuan Yang

Subjects
Adult, Male, Magnesium Hydroxide, Adolescent, Cmax, Pharmaceutical Science, chemistry.chemical_element, Aluminum Hydroxide, Pharmacology, 030226 pharmacology & pharmacy, Calcium Carbonate, Gout Suppressants, Food-Drug Interactions, Young Adult, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Pharmacokinetics, medicine, Humans, Pharmacology (medical), Hyperuricemia, Cross-Over Studies, business.industry, Magnesium, Lesinurad, Middle Aged, Triazoles, medicine.disease, Dietary Fats, Healthy Volunteers, Uric Acid, Drug Combinations, chemistry, Thioglycolates, 030220 oncology & carcinogenesis, Pharmacodynamics, Uric acid, Hydroxide, Antacids, business
Abstract

Two clinical studies were performed in healthy volunteers to investigate food and antacid effects on lesinurad, a novel selective uric acid reabsorption inhibitor approved for treatment of hyperuricemia associated with gout in combination with xanthine oxidase inhibitors. Study 1 evaluated a high-fat, high-calorie meal or high doses of antacids (3000 mg calcium carbonate or 1600 mg magnesium hydroxide/1600 mg aluminum hydroxide) on the pharmacokinetics (PK) and pharmacodynamics (PD) of 400 mg oral lesinurad. Study 2 evaluated low doses of antacids (1250 mg calcium carbonate or 800 mg magnesium hydroxide/800 mg aluminum hydroxide) on the PK and PD of 400 mg lesinurad. Food did not alter the plasma AUC of lesinurad and only reduced its Cmax by 18%. In the fasted conditions, high-dose calcium carbonate reduced the Cmax and AUC of lesinurad by 54% and 38%, respectively, whereas high-dose magnesium hydroxide/aluminum hydroxide reduced Cmax and AUC by 36% and 31%, respectively. Food enhanced the maximum serum urate (sUA)-lowering effect of lesinurad by approximately 20% despite reducing the Cmax of lesinurad. High-dose calcium carbonate decreased the urate-lowering effect approximately 20% in the first 6 hours, whereas high-dose magnesium hydroxide/aluminum hydroxide reduced the effect by 26%. Low-dose calcium carbonate or magnesium hydroxide/aluminum hydroxide in the presence of food did not significantly affect plasma lesinurad Cmax and AUC or the sUA lowering and renal handling of uric acid. In summary, study results suggest food did not meaningfully alter lesinurad PK and PD. High doses of antacids reduced lesinurad AUC up to 40% and reduced the lesinurad uric acid-lowering effect.

Published
2019

12. Workshop Report: USP Workshop on Exploring the Science of Drug Absorption

Author

Marilyn N. Martinez, Raafat Fahmy, Mansoor A. Khan, Xavier Pepin, Jonathan P. Mochel, Sara Carlert, Patrick J. Sinko, Masoud Jamei, Viera Lukacova, D Pade, Murat Cirit, Sid Bhoopathy, Konstantin Tsinman, David C. Sperry, Talia Flanagan, Maria Vertzoni, Christos Reppas, and Ben Forbes

Subjects
business.industry, In vitro dissolution, Pharmaceutical Science, Medicine, Pharmacology, Bioequivalence, business, Bioavailability
Published
2019

13. Correction to: Integrated Multi-stakeholder Systems Thinking Strategy: Decision-making with Biopharmaceutics Risk Assessment Roadmap (BioRAM) to Optimize Clinical Performance of Drug Products

Author

Jack Cook, Talia Flanagan, Arzu Selen, Anette Müllertz, Rodney J. Y. Ho, Paul A. Dickinson, and Filippos Kesisoglou

Subjects
Flexibility (engineering), Process management, business.industry, Process (engineering), Computer science, Biopharmaceutics, Pharmaceutical Science, 030226 pharmacology & pharmacy, 03 medical and health sciences, 0302 clinical medicine, Drug development, Blueprint, 030220 oncology & carcinogenesis, Health care, Systems thinking, Risk assessment, business
Abstract

Decision-making in drug development benefits from an integrated systems approach, where the stakeholders identify and address the critical questions for the system through carefully designed and performed studies. Biopharmaceutics Risk Assessment Roadmap (BioRAM) is such a systems approach for application of systems thinking to patient focused and timely decision-making, suitable for all stages of drug discovery and development. We described the BioRAM therapy-driven drug delivery framework, strategic roadmap, and integrated risk assessment instrument (BioRAM Scoring Grid) in previous publications (J Pharm Sci 103:3377–97, 2014; J Pharm Sci 105:3243–55, 2016). Integration of systems thinking with pharmaceutical development, manufacturing, and clinical sciences and health care is unique to BioRAM where the developed strategy identifies the system and enables risk characterization and balancing for the entire system. Successful decision-making process in BioRAM starts with the Blueprint (BP) meetings. Through shared understanding of the system, the program strategy is developed and captured in the program BP. Here, we provide three semi-hypothetical examples for illustrating risk-based decision-making in high and moderate risk settings. In the high-risk setting, which is a rare disease area, two completely alternate development approaches are considered (gene therapy and small molecule). The two moderate-risk examples represent varied knowledge levels and drivers for the programs. In one moderate-risk example, knowledge leveraging opportunities are drawn from the manufacturing knowledge and clinical performance of a similar drug substance. In the other example, knowledge on acute tolerance patterns for a similar mechanistic pathway is utilized for identifying markers to inform the drug release profile from the dosage form with the necessary “flexibility” for dosing. All examples illustrate implementation of the BioRAM strategy for leveraging knowledge and decision-making to optimize the clinical performance of drug products for patient benefit.

Published
2020

14. Impact of Food and Drink Administration Vehicles on Paediatric Formulation Performance Part 2: Dissolution of Montelukast Sodium and Mesalazine Formulations

Author

Nikoletta Fotaki, Talia Flanagan, Joana Martir, and James Mann

Subjects
Cyclopropanes, dissolution, Administration, Oral, Pharmaceutical Science, Acetates, Pharmacology, Pediatrics, 030226 pharmacology & pharmacy, chemistry.chemical_compound, 0302 clinical medicine, Drug Discovery, drug manipulation, drinks, Medicine, Dissolution testing, Anti-Asthmatic Agents, Child, Mesalamine, Dissolution, media_common, mini-paddle, Ecology, Anti-Inflammatory Agents, Non-Steroidal, General Medicine, multivariate analysis, Biopharmaceutical, 030220 oncology & carcinogenesis, Quinolines, Pharmaceutical Vehicles, Research Article, medicine.drug, Drug, Drug Compounding, media_common.quotation_subject, Biological Availability, Sulfides, Aquatic Science, paediatrics, Beverages, Excipients, 03 medical and health sciences, Mesalazine, Humans, Dosing, Ecology, Evolution, Behavior and Systematics, Montelukast, business.industry, food, Infant, Bioavailability, Drug Liberation, Solubility, chemistry, business, Agronomy and Crop Science
Abstract

Paediatric medicines are not always age-appropriate, causing problems with dosing, acceptability and adherence. The use of food and drinks as vehicles for medicine co-administration is common practice, yet the impact on drug bioavailability, safety and efficacy remains unaddressed. The aim of this study was to use in vitro dissolution testing, under infant simulating conditions, to evaluate the effect of co-administration with vehicles on the dissolution performance of two poorly soluble paediatric drugs. Dissolution studies of mesalazine and montelukast formulations were conducted with mini-paddle apparatus on a two-stage approach: simulated gastric fluid followed by addition of simulated intestinal fluid. The testing scenarios were designed to reflect daily administration practices: direct administration of formulation; formulation co-administered with food and drinks, both immediately after mixing and 4 h after mixing. Drug dissolution was significantly affected by medicine co-administration with vehicles, compared to the direct administration of formulation. Furthermore, differences were observed on drug dissolution when the formulations were mixed with different vehicles of the same subtype. The time between preparation and testing of the drug-vehicle mixture also impacted dissolution behaviour. Drug dissolution was shown to be significantly affected by the physicochemical properties and composition of the vehicles, drug solubility in each vehicle and drug/formulation characteristics. Ultimately, in this study, we show the potential of age-appropriate in vitro dissolution testing as a useful biopharmaceutical tool for estimating drug dissolution in conditions relevant to the paediatric population. The setup developed has potential to evaluate the impact of medicine co-administration with vehicles on paediatric formulation performance.

Published
2020

15. In Vivo Predictive Dissolution Testing of Montelukast Sodium Formulations Administered with Drinks and Soft Foods to Infants

Author

Joana Martir, James Mann, Talia Flanagan, and Nikoletta Fotaki

Subjects
Cyclopropanes, Pharmaceutical Science, 02 engineering and technology, Acetates, Pharmacology, 030226 pharmacology & pharmacy, 0302 clinical medicine, Drug Discovery, drug manipulation, Dissolution testing, Anti-Asthmatic Agents, Dissolution, education.field_of_study, mini-paddle, Ecology, Chemistry, Fasting, General Medicine, 021001 nanoscience & nanotechnology, Milk, paediatric biorelevant media, Area Under Curve, Montelukast Sodium, Quinolines, Pharmaceutical Vehicles, 0210 nano-technology, Research Article, medicine.drug, Drug Compounding, Population, Sulfides, Aquatic Science, paediatrics, Beverages, 03 medical and health sciences, In vivo, medicine, Animals, Humans, Dosing, education, Ecology, Evolution, Behavior and Systematics, Montelukast, Gastric fluid, food, Infant, Solubility, in vitro dissolution, in vitro-in vivo relationship, Agronomy and Crop Science
Abstract

In vitro dissolution testing conditions that reflect and predict in vivo drug product performance are advantageous, especially for the development of paediatric medicines, as clinical testing in this population is hindered by ethical and technical considerations. The aim of this study was to develop an in vivo predictive dissolution test in order to investigate the impact of medicine co-administration with soft food and drinks on the dissolution performance of a poorly soluble compound. Relevant in vitro dissolution conditions simulating the in vivo gastrointestinal environment of infants were used to establish in vitro-in vivo relationships with corresponding in vivo data. Dissolution studies of montelukast formulations were conducted with mini-paddle apparatus on a two-stage approach: infant fasted-state simulated gastric fluid (Pi-FaSSGF; for 1 h) followed by either infant fasted-state or infant fed-state simulated intestinal fluid (FaSSIF-V2 or Pi-FeSSIF, respectively; for 3 h). The dosing scenarios tested reflected in vivo paediatric administration practices: (i.) direct administration of formulation; (ii.) formulation co-administered with vehicles (formula, milk or applesauce). Drug dissolution was significantly affected by co-administration of the formulation with vehicles compared with after direct administration of the formulation. Montelukast dissolution from the granules was significantly higher under fed-state simulated intestinal conditions in comparison with the fasted state and was predictive of the in vivo performance when the granules are co-administered with milk. This study supports the potential utility of the in vitro biorelevant dissolution approach proposed to predict in vivo formulation performance after co-administration with vehicles, in the paediatric population.

Published
2020

17. Biopharmaceutical Understanding of Excipient Variability on Drug Apparent Solubility Based on Drug Physicochemical Properties. Case Study: Superdisintegrants

Author

Nikoletta Fotaki, Talia Flanagan, Elizabeth Meehan, Panagiota Zarmpi, and James Mann

Subjects
Drug, sodium starch glycolate, Drug Compounding, media_common.quotation_subject, Pharmaceutical Science, Excipient, 02 engineering and technology, crospovidone, 030226 pharmacology & pharmacy, Dosage form, Excipients, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, medicine, Solubility, media_common, Croscarmellose sodium, Chromatography, Viscosity, Povidone, Starch, Hydrogen-Ion Concentration, 021001 nanoscience & nanotechnology, Bioavailability, Biopharmaceutical, Models, Chemical, Pharmaceutical Preparations, chemistry, croscarmellose sodium, Carboxymethylcellulose Sodium, Lipophilicity, drug solubility, excipient variability, 0210 nano-technology, Research Article, medicine.drug
Abstract

The presence of different excipient types/brands in solid oral dosage forms may affect product performance and drug bioavailability. Understanding the biopharmaceutical implications of superdisintegrant variability (changes in material properties), variation (changes in excipient amount) and interchangeability (use of different excipient types with the same intended functionality) in oral drug performance would be beneficial for the development of robust final dosage forms. The current study investigated the impact of superdisintegrants (sodium starch glycolate, croscarmellose sodium, crospovidone) on the apparent solubility of drugs with different physicochemical properties (drug ionisation, drug lipophilicity, drug aqueous solubility). Compendial and biorelevant media were used to assess the impact of gastrointestinal conditions on the effects of excipient on drug apparent solubility. For the majority of compounds, changes in drug apparent solubility were not observed in superdisintegrant presence, apart from the cases of highly ionised compounds (significant decrease in drug solubility) and/or compounds that aggregate/precipitate in solution (significant increase in drug solubility). Excipient variability did not greatly affect the impact of excipients on drug apparent solubility. The use of multivariate data analysis identified the biopharmaceutical factors affecting excipient performance. The construction of roadmaps revealed that superdisintegrants may be of low risk for the impact of excipients on oral drug performance based on drug solubility alone; superdisintegrants activity could still be a risk for oral bioavailability due to their effects on tablet disintegration. Electronic supplementary material The online version of this article (10.1208/s12248-019-0406-y) contains supplementary material, which is available to authorized users.

Published
2020

18. A survey on IVIVC/IVIVR development in the pharmaceutical industry – Past experience and current perspectives

Author

John R. Crison, Martin Mueller-Zsigmondy, Talia Flanagan, A. Van Peer, Mark McAllister, Uwe Muenster, Peter Timmins, Erik Mannaert, Jeike Biewenga, René Holm, Stefania Beato, S. Page, Stefaan Rossenu, Peter Langguth, Alan F. Parr, Filippos Kesisoglou, Mai Anh Nguyen, R. Li, An Vermeulen, Krista Ojala, and Marcus E. Brewster

Subjects
Drug Industry, Operations research, Pharmaceutical Science, 02 engineering and technology, Models, Biological, 030226 pharmacology & pharmacy, 03 medical and health sciences, 0302 clinical medicine, IVIVC, Surveys and Questionnaires, Drug Discovery, Agency (sociology), Animals, Humans, Relevance (law), Medicine, Pharmacokinetics, Marketing, Pharmaceutical industry, Rate of return, Flexibility (engineering), business.industry, 021001 nanoscience & nanotechnology, Drug development, Positive attitude, 0210 nano-technology, business
Abstract

The present work aimed to describe the current status of IVIVC/IVIVR development in the pharmaceutical industry, focusing on the use and perception of specific approaches as well as successful and failed case studies. Two questionnaires have been distributed to 13 EFPIA partners of the Oral Biopharmaceutics Tools Initiative and to the Pharmacokinetics Working Party of the European Medicines Agency in order to capture the perspectives and experiences of industry scientists and agency members, respectively. Responses from ten companies and three European Agencies were received between May 21st 2014 and January 19th 2016. The majority of the companies acknowledged the importance of IVIVC/IVIVR throughout the drug development stages and a well-balanced rate of return on investment. However, the IVIVC/IVIVR approach seemed to be underutilized in regulatory submissions. Four of the ten companies stated to have an internal guidance related to IVIVC/IVIVR modelling, whereas three felt that an overall strategy is not necessary. Successful models mainly served to support formulation development and to provide a better mechanistic understanding. There was not yet much experience with safe-space IVIVRs as well as the use of physiologically based modelling in the field of IVIVC. At the same time, the responses from both industry and agencies indicated that there might be a need for a regulatory framework to guide the application of these novel approaches. The relevance of IVIVC/IVIVR for oral IR drug products was recognized by most of the companies. For IR formulations, relationships other than Level A correlation were more common outcomes among the provided case studies, such as multiple Level C correlation or safe-space IVIVR, which could be successfully used for requesting regulatory flexibility. Compared to the responses from industry scientists, there was a trend towards a higher appreciation of the BCS among the regulators, but a less positive attitude towards the utility of non-compendial dissolution methods for establishing a successful IVIVC/IVIVR. The lack of appropriate in vivo data and regulatory uncertainty were considered the major difficulties in IVIVC/IVIVR development. The results of this survey provide unique insights into current IVIVC/IVIVR practices in the pharmaceutical industry. Pursuing an IVIVC/IVIVR should be generally encouraged, considering its high value from both industry and regulators' perspective.

Published
2017

19. In Vivo Predictive Dissolution (IPD) and Biopharmaceutical Modeling and Simulation: Future Use of Modern Approaches and Methodologies in a Regulatory Context

Author

Talia Flanagan, Anna Nordmark, Céline Ollier, Bertil Abrahamsson, P. Zane, Erik Sjögren, M. McAllister, V. Fischer, Shinji Yamashita, Hans Lennernäs, A. Van Peer, Robert Lionberger, Anders Lindahl, Lawrence X. Yu, and Gordon L. Amidon

Subjects
Physiologically based pharmacokinetic modelling, Computer science, In silico, Administration, Oral, Pharmaceutical Science, Context (language use), 02 engineering and technology, Pharmacology, Models, Biological, 030226 pharmacology & pharmacy, Biopharmaceutics, Modeling and simulation, 03 medical and health sciences, 0302 clinical medicine, In vivo, Drug Discovery, Humans, 021001 nanoscience & nanotechnology, Biopharmaceutics Classification System, 3. Good health, Gastrointestinal Tract, Biopharmaceutical, Pharmaceutical Preparations, Solubility, Gastrointestinal Absorption, Molecular Medicine, Biochemical engineering, 0210 nano-technology
Abstract

The overall objective of OrBiTo, a project within Innovative Medicines Initiative (IMI), is to streamline and optimize the development of orally administered drug products through the creation and efficient application of biopharmaceutics tools. This toolkit will include both experimental and computational models developed on improved understanding of the highly dynamic gastrointestinal (GI) physiology relevant to the GI absorption of drug products in both fasted and fed states. A part of the annual OrBiTo meeting in 2015 was dedicated to the presentation of the most recent progress in the development of the regulatory use of PBPK in silico modeling, in vivo predictive dissolution (IPD) tests, and their application to biowaivers. There are still several areas for improvement of in vitro dissolution testing by means of generating results relevant for the intraluminal conditions in the GI tract. The major opportunity is probably in combining IPD testing and physiologically based in silico models where the in vitro data provide input to the absorption predictions. The OrBiTo project and other current research projects include definition of test media representative for the more distal parts of the GI tract, models capturing supersaturation and precipitation phenomena, and influence of motility waves on shear and other forces of hydrodynamic origin, addressing the interindividual variability in composition and characteristics of GI fluids, food effects, definition of biorelevant buffer systems, and intestinal water volumes. In conclusion, there is currently a mismatch between the extensive industrial usage of modern in vivo predictive tools and very limited inclusion of such data in regulatory files. However, there is a great interest among all stakeholders to introduce recent progresses in prediction of in vivo GI drug absorption into regulatory context.

Published
2017

20. Co-administration of Paediatric Medicines with Food and Drinks in the Context of Their Physicochemical Properties-a Global Perspective on Practices and Recommendations

Author

Talia Flanagan, Nikoletta Fotaki, James Mann, and Joana Martir

Subjects
Adolescent, Food and drinks, Drug Compounding, Biopharmaceutical and physicochemical properties, Pharmacology toxicology, Pharmaceutical Science, Administration, Oral, Pharmacy, Context (language use), Formularies as Topic, Review Article, 030226 pharmacology & pharmacy, Beverages, 03 medical and health sciences, Eating, 0302 clinical medicine, Medicine, Humans, Formulary, Healthcare Disparities, Child, Models, Statistical, business.industry, Age Factors, Infant, Paediatrics, medicine.disease, Biopharmaceutical, Drug development, Pharmaceutical Preparations, Therapeutic Equivalency, Formulation, 030220 oncology & carcinogenesis, Child, Preschool, Practice Guidelines as Topic, Patient Compliance, Medical emergency, business, Drug manipulation, Co administration
Abstract

Medicine co-administration with food or drink vehicles is a common administration practice in paediatrics. The aims of this review were (i) to describe the current recommended strategies for co-administration of paediatric medicines with food and drinks (vehicles); (ii) to compare current administration recommendations from different countries; and (iii) to obtain a global perspective on the rationale behind the choice of recommended vehicle, in the context of the physicochemical properties of the drug and formulation. This study used a defined search strategy on the practices of paediatric medicine co-administration with vehicles, recommended in a commonly used paediatric and neonatal handbook, in addition to the information previously gathered from UK formularies. Logistic regression analysis was performed to further understand the biopharmaceutical basis of the choice of recommended vehicle for medicine co-administration. Differences were identified in the type of vehicles globally recommended for medicine co-administration. Ultimately, a statistical model was developed which provided an understanding on which vehicle is recommended for use with drugs/formulations, with basis on their biopharmaceutical properties. Overall, this review highlights the areas where further information is needed to support standardised procedures and guide the recommendation of age-appropriate and acceptable vehicles for use in the co-administration of paediatric medicines. Unified requirements are needed for harmonisation of the practice of medicine co-administration with vehicles. In vitro and/or in silico tools should be developed to evaluate the potential clinical outcomes of this practice during paediatric drug development. Electronic supplementary material The online version of this article (10.1208/s12248-020-0432-9) contains supplementary material, which is available to authorized users.

Published
2019

21. Surface dissolution UV imaging for characterization of superdisintegrants and their impact on drug dissolution

Author

Elizabeth Meehan, Nikoletta Fotaki, Talia Flanagan, Panagiota Zarmpi, and James Mann

Subjects
Drug, Excipient viscosity, Ultraviolet Rays, media_common.quotation_subject, Excipient particle size, Excipient, Pharmaceutical Science, 02 engineering and technology, 030226 pharmacology & pharmacy, Excipients, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, medicine, Technology, Pharmaceutical, Dissolution testing, Particle Size, Dissolution, Sodium starch glycolate, media_common, Acetaminophen, Croscarmellose sodium, Excipient swelling, Viscosity, Starch, Real – time surface dissolution UV imaging, Hydrogen-Ion Concentration, 021001 nanoscience & nanotechnology, Drug Liberation, Carbamazepine, chemistry, Chemical engineering, Solubility, Carboxymethylcellulose Sodium, Wetting, Particle size, Swelling, medicine.symptom, 0210 nano-technology, medicine.drug, Tablets
Abstract

Superdisintegrants are a key excipient used in immediate release formulations to promote fast tablet disintegration, therefore understanding the impact of superdisintegrant variability on product performance is important. The current study examined the impact of superdisintegrant critical material attributes (viscosity for sodium starch glycolate (SSG), particle size distribution (PSD) for croscarmellose sodium (CCS)) on their performance (swelling) and on drug dissolution using surface dissolution UV imaging. Acidic and basic pharmacopoeia (compendial) media were used to assess the role of varying pH on superdisintegrant performance and its effect on drug dissolution. A highly soluble (paracetamol) and a poorly soluble (carbamazepine) drug were used as model compounds and drug compacts and drug-excipient compacts were prepared for the dissolution experiments. The presence of a swelled SSG or CCS layer on the compact surface, due to the fast excipient hydration capacity, upon contact with dissolution medium was visualized. The swelling behaviour of superdisintegrants depended on excipient critical material attributes and the pH of the medium. Drug dissolution was faster in presence compared to superdisintegrant absence due to improved compact wetting or compact disintegration. The improvement in drug dissolution was less pronounced with increasing SSG viscosity or CCS particle size. Drug dissolution was slightly more complete in basic compared to acidic conditions in presence of the studied superdisintegrants for the highly soluble drug attributed to the increased excipient hydration capacity and the fast drug release through the swelled excipient structure. The opposite was observed for the poorly soluble drug as potentially the improvement in drug dissolution was compromised by drug release from the highly swelled structure. The use of multivariate data analysis revealed the influential role of excipient and drug properties on the impact of excipient variability on drug dissolution.

Published
2019

22. Impact of Magnesium Stearate Presence and Variability on Drug Apparent Solubility Based on Drug Physicochemical Properties

Author

Panagiota Zarmpi, James Mann, Talia Flanagan, Nikoletta Fotaki, and Elizabeth Meehan

Subjects
Drug, multivariate data analysis, Chemical Phenomena, media_common.quotation_subject, Chemistry, Pharmaceutical, Pharmaceutical Science, Excipient, 02 engineering and technology, physicochemical properties, 030226 pharmacology & pharmacy, Dosage form, magnesium stearate, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, X-Ray Diffraction, medicine, Magnesium stearate, Solubility, Particle Size, media_common, Chromatography, 021001 nanoscience & nanotechnology, Biopharmaceutical, chemistry, Lipophilicity, drug solubility, excipient variability, 0210 nano-technology, Oral retinoid, Stearic Acids, medicine.drug, Research Article
Abstract

Excipients are major components of oral solid dosage forms, and changes in their critical material attributes (excipient variability) and/or amount (excipient variation) in pharmaceutical formulations may present a challenge for product performance. Understanding the biopharmaceutical factors affecting excipient performance is recommended for the successful implementation of excipient variability on Quality by Design (QbD) approaches. The current study investigated the impact of magnesium stearate (MgSt) variability on the apparent solubility of drugs with a wide range of physicochemical properties (drug ionization, drug lipophilicity, drug aqueous solubility). Compendial and biorelevant media were used to assess the role of gastrointestinal (GI) conditions on the excipient effects on drug apparent solubility. The lipophilic nature of MgSt decreased the apparent solubility of most compounds. The reduction in drug apparent solubility was more pronounced for highly soluble and/or highly ionized drugs and in presence of more highly crystalline or smaller particle size MgSt. The use of multivariate data analysis revealed the critical physicochemical and biopharmaceutical factors and the complex nature of excipient variability on the reduction in drug apparent solubility. The construction of a roadmap combining drug, excipient and medium characteristics allowed the identification of the cases where the presence of excipient or excipient variability may present risks for oral drug performance. Electronic supplementary material The online version of this article (10.1208/s12248-020-00449-w) contains supplementary material, which is available to authorized users.

Published
2019

23. BCS-based biowaivers: Extension to paediatrics

Author

Talia Flanagan, Nikoletta Fotaki, James Mann, and Joana Martir

Subjects
Adult, medicine.medical_specialty, In vitro dissolution, Pharmaceutical Science, 02 engineering and technology, Bioequivalence, Pediatrics, 030226 pharmacology & pharmacy, Permeability, Biopharmaceutics, 03 medical and health sciences, 0302 clinical medicine, Drug permeability, Age groups, medicine, Humans, Medical physics, Child, business.industry, 021001 nanoscience & nanotechnology, Biopharmaceutics Classification System, Biopharmaceutical, Solubility, Therapeutic Equivalency, Drug product, 0210 nano-technology, business, Paediatric population
Abstract

A BCS-based biowaiver allows extrapolation of drug product bioequivalence (when applicable) based on the BCS class of the drug and in vitro dissolution testing. Drug permeability and solubility considerations for adult BCS might not apply directly to paediatric subpopulations and bridging of adult and paediatric formulations should be undertaken with caution.The aims of this study were to: (i.) identify compounds which would change drug solubility classification in the paediatric population, and (ii.) to assess the risk of extending BCS-based biowaiver criteria into paediatric products of these compounds. Amoxicillin, prednisolone, and amlodipine were selected as the model compounds.Dissolution studies of IR formulations of these compounds were conducted with USP II (paddle) and mini-paddle apparatus, in media of three pHs (pH 1.2, 4.5 and 6.8). Three dissolution setups were tested: (1) ‘typical’ BCS-based biowaiver conditions, (2) “BE” setup derived from BE study protocols (volume: 250 mL), and (3) “paediatric” setup based on representative volume for the paediatric population (50 mL).Results revealed that extension of regulated BCS-based biowaiver criteria for paediatric application is not as simple as scaling down volumes. It was further shown that BCS-based biowaiver criteria should not be applied when there is the risk of change of the drug solubility class, from the adult to paediatric populations.A deeper knowledge of the paediatric gastrointestinal environment is still lacking and would assist in refining the biopharmaceutical tools needed to appropriately evaluate formulation performance across age groups. This would potentially reduce the number of clinical studies required and speed up formulation development.

Published
2020

24. Effects of ranitidine (antacid), food, and formulation on the pharmacokinetics of fostamatinib: results from five phase I clinical studies

Author

Eleanor Lisbon, Talia Flanagan, Michael Gillen, David Mathews, Paul D. Martin, and Martin Kruusmägi

Subjects
Adult, Male, Adolescent, Pyridines, Chemistry, Pharmaceutical, Morpholines, medicine.medical_treatment, Administration, Oral, Aminopyridines, Biological Availability, Pharmacology, Ranitidine, Fostamatinib, 030226 pharmacology & pharmacy, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Pharmacokinetics, In vivo, Antacid, Oxazines, medicine, Humans, Syk Kinase, Drug Interactions, Prodrugs, Pharmacology (medical), Cellulose, Active metabolite, 030203 arthritis & rheumatology, Cross-Over Studies, Chemistry, General Medicine, Middle Aged, Prodrug, Anti-Ulcer Agents, Bioavailability, Pyrimidines, Solubility, Food, Female, Antacids, medicine.drug
Abstract

Fostamatinib is an orally dosed phosphate prodrug that is cleaved by intestinal alkaline phosphatase to the active metabolite R406. Clinical studies were performed to assess the effect of food and ranitidine on exposure, to support in vitro-in vivo relationships (IVIVR) understanding and formulation transitions and to investigate absolute oral bioavailability. A series of in vitro dissolution and clinical pharmacokinetic studies were performed to support the design and introduction of a new formulation, understand the impact of changes in in vitro dissolution on in vivo performance for two fostamatinib formulations, to characterize the effects of food and ranitidine on exposure, and determine the absolute oral bioavailability. The in vivo performance of fostamatinib was generally insensitive to changes in in vitro dissolution performance, although marked slowing of the dissolution rate did impact exposures. Food and ranitidine had minor effects on R406 exposure that were not considered clinically relevant. The absolute oral bioavailability of fostamatinib was 54.6 %. The absolute oral bioavailability of fostamatinib was ~55 %. Food and ranitidine had minor effects on R406 exposure. An in vitro dissolution versus clinical performance relationship was determined that supported formulation transitions.

Published
2016

25. Use of physiologically relevant biopharmaceutics tools within the pharmaceutical industry and in regulatory sciences: Where are we now and what are the gaps?

Author

Talia Flanagan, Achiel Van Peer, and Anders Lindahl

Subjects
Physiologically based pharmacokinetic modelling, Drug Industry, Process (engineering), Pharmaceutical Science, 02 engineering and technology, Pharmacology, Models, Biological, 030226 pharmacology & pharmacy, Biopharmaceutics, 03 medical and health sciences, 0302 clinical medicine, Surveys and Questionnaires, Computer Simulation, Pharmaceutical industry, business.industry, Management science, Legislation, Drug, 021001 nanoscience & nanotechnology, Biopharmaceutical, Pharmaceutical Preparations, Solubility, Drug development, Current practice, 0210 nano-technology, business
Abstract

Regulatory interactions are an important part of the drug development and licensing process. A survey on the use of biopharmaceutical tools for regulatory purposes has been carried out within the industry community of the EU project OrBiTo within Innovative Medicines Initiative (IMI). The aim was to capture current practice and experience in using in vitro and in silico biopharmaceutics tools at various stages of development, what barriers exist or are perceived, and to understand the current gaps in regulatory biopharmaceutics. The survey indicated that biorelevant dissolution testing and physiologically based modelling and simulation are widely applied throughout development to address a number of biopharmaceutics issues. However, data from these in vitro and in silico predictive biopharmaceutics tools are submitted to regulatory authorities far less often than they are used for internal risk assessment and decision making. This may prevent regulators from becoming familiar with these tools and how they are applied in industry, and limits the opportunities for biopharmaceutics scientists working in industry to understand the acceptability of these tools in the regulatory environment. It is anticipated that the advanced biopharmaceutics tools and understanding delivered in the next years by OrBiTo and other initiatives in the area of predictive tools will also be of value in the regulatory setting, and provide a basis for more informed and confident biopharmaceutics risk assessment and regulatory decision making. To enable the regulatory potential of predictive biopharmaceutics tools to be realized, further scientific dialogue is needed between industry, regulators and scientists in academia, and more examples need to be published to demonstrate the applicability of these tools.

Published
2016

26. Justification of Drug Product Dissolution Rate and Drug Substance Particle Size Specifications Based on Absorption PBPK Modeling for Lesinurad Immediate Release Tablets

Author

Xavier Pepin, Talia Flanagan, Anna Eidelman, Don Treacy, David Holt, and Colin E. Rowlings

Subjects
Male, Physiologically based pharmacokinetic modelling, Cmax, Pharmaceutical Science, 02 engineering and technology, Bioequivalence, Pharmacology, 030226 pharmacology & pharmacy, Dosage form, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Drug Discovery, Humans, Pharmacokinetics, Dissolution testing, Particle Size, Dissolution, Chromatography, Lesinurad, 021001 nanoscience & nanotechnology, Gastrointestinal Tract, Drug Liberation, chemistry, Molecular Medicine, Particle size, 0210 nano-technology, Tablets
Abstract

In silico absorption modeling has been performed, to assess the impact of in vitro dissolution on in vivo performance for ZURAMPIC (lesinurad) tablets. The dissolution profiles of lesinurad tablets generated using the quality control method were used as an input to a GastroPlus model to estimate in vivo dissolution in the various parts of the GI tract and predict human exposure. A model was set up, which accounts for differences of dosage form transit, dissolution, local pH in the GI tract, and fluid volumes available for dissolution. The predictive ability of the model was demonstrated by confirming that it can reproduce the Cmax observed for independent clinical trial. The model also indicated that drug product batches that pass the proposed dissolution specification of Q = 80% in 30 min are anticipated to be bioequivalent to the clinical reference batch. To further explore the dissolution space, additional simulations were performed using a theoretical dissolution profile below the proposed specification. The GastroPlus modeling indicates that such a batch will also be bioequivalent to standard clinical batches despite having a dissolution profile, which would fail the proposed dissolution specification of Q = 80% in 30 min. This demonstrates that the proposed dissolution specification sits comfortably within a region of dissolution performance where bioequivalence is anticipated and is not near an edge of failure for dissolution, providing additional confidence to the proposed specifications. Finally, simulations were performed using a virtual drug substance batch with a particle size distribution at the limit of the proposed specification for particle size. Based on these simulations, such a batch is also anticipated to be bioequivalent to clinical reference, demonstrating that the proposed specification limits for particle size distribution would give products bioequivalent to the pivotal clinical batches.

Published
2016

27. Estimating the variability in fraction absorbed as a paradigm for informing formulation development in early clinical drug development

Author

Talia Flanagan, Sarit C. Rabbie, Joseph F. Standing, Paul D. Martin, and Abdul Basit

Subjects
Adult, Absorption (pharmacology), Chemistry, Pharmaceutical, Population, Administration, Oral, Biological Availability, Pharmaceutical Science, Fraction (chemistry), Pharmacology, Models, Biological, 030226 pharmacology & pharmacy, Gastric Acid, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Pharmacokinetics, Drug Discovery, Humans, education, education.field_of_study, Chromatography, Chemistry, Hydrogen-Ion Concentration, Middle Aged, NONMEM, Bioavailability, Intestinal Absorption, Liver, Drug development, Delayed-Action Preparations, 030220 oncology & carcinogenesis, Drug metabolism
Abstract

PURPOSE: Inter-subject variability in oral drug absorption is usually reported using bioavailability, which has the components: fraction absorbed (fa), fraction passing the gut wall (fg) and fraction escaping hepatic metabolism (fh). In this study, we sought to separate the absorption (fa∗fg) and elimination (fh) components of bioavailability to study variability of absorption and to investigate the effect of formulations, gastric pH and food on absorption variability. METHODS: Four compounds from the AstraZeneca database with a range of reported bioavailabilities (high, intermediate 1&2 and low) were selected. First, a disposition model using intravenous data was developed; Second, intrinsic clearance and hence hepatic extraction ratio was estimated based on the "well stirred" model; lastly, the oral data were included to enable estimation of fa∗fg as a separate component to hepatic extraction. Population pharmacokinetic model fitting was undertaken with NONMEM v.7.2. RESULTS: The limiting step in absorption for intermediate 1 was dissolution rate and fa∗fg variability increased under elevated gastric pH (15% vs. 38%, respectively). Absorption of solution formulation intermediate 2 increased by 17% in the presence of food but the prolonged release formulation's absorption didn't differ under fasted or fed state. Variability wasn't affected by food for both formulations (~30%). For the low bioavailable compound, variability decreased when formulated as a prolonged-release formulation (39% vs. 15%). CONCLUSIONS: The method described here enables an exploration of drug absorption inter-subject variability using population pharmacokinetics. Implementation of such an approach may aid the formulation design process through a better understanding of the factors affecting oral drug absorption variability.

Published
2016

28. Dissolution Highlights from the 2015 AAPS Annual Meeting in Orlando

Author

Dorys Argelia Diaz, Talia Flanagan, Nikoletta Fotaki, Johannes Krämer, Geoffrey Grove, and Vivian A. Gray

Subjects
03 medical and health sciences, 0302 clinical medicine, Waste management, Computer science, Pharmaceutical Science, 02 engineering and technology, 021001 nanoscience & nanotechnology, 0210 nano-technology, 030226 pharmacology & pharmacy, Dissolution
Published
2016

29. Developing Clinically Relevant Dissolution Specifications for Oral Drug Products—Industrial and Regulatory Perspectives

Author

Xavier Pepin, Mark McAllister, Masoud Jamei, Talia Flanagan, Andreas Abend, Christophe Tistaert, Claire Mackie, Evangelos Kotzagiorgis, and Karin Boon

Subjects
clinically relevant dissolution specifications, business.industry, In vitro dissolution, Biopharmaceutics, lcsh:RS1-441, Pharmaceutical Science, Meeting Report, biorelevant dissolution, Focus group, drug products, lcsh:Pharmacy and materia medica, product performance, oral, PBBM, New product development, Engineering ethics, business, Oral retinoid
Abstract

A meeting that was organized by the Academy of Pharmaceutical Sciences Biopharmaceutics and Regulatory Sciences focus groups focused on the challenges of Developing Clinically Relevant Dissolution Specifications (CRDS) for Oral Drug Products. Industrial Scientists that were involved in product development shared their experiences with in vitro dissolution and in silico modeling approaches to establish clinically relevant dissolution specifications. The regulators shared their perspectives on the acceptability of these different strategies for the development of acceptable specifications. The meeting also reviewed several collaborative initiatives that were relevant to regulatory biopharmaceutics. Following the scientific presentations, a roundtable session provided an opportunity for delegates to discuss the information that was shared during the presentations, debate key questions, and propose strategies to make progress in this critical area of regulatory biopharmaceutics. It was evident from the presentations and subsequent discussions that progress continues to be made with approaches to establish robust CRDS. Further dialogue between industry and regulatory agencies greatly assisted future developments and key areas for focused discussions on CRDS were identified.

Published
2019

30. Industry's View on Using Quality Control, Biorelevant, and Clinically Relevant Dissolution Tests for Pharmaceutical Development, Registration, and Commercialization

Author

James Mann, Talia Flanagan, David Curran, Andre Hermans, Filippos Kesisoglou, Andreas Abend, Michael J. Cohen, Judy Lin, Andy Blanchard, David P. Elder, Gregory K. Webster, Limin Zhang, Yiqing Lin, Yun Mao, and Haiyan Grady

Subjects
Quality Control, Process management, Computer science, media_common.quotation_subject, Chemistry, Pharmaceutical, Control (management), Pharmaceutical Science, 02 engineering and technology, 030226 pharmacology & pharmacy, Commercialization, 03 medical and health sciences, 0302 clinical medicine, Product lifecycle, Animals, Humans, Dissolution testing, Quality (business), media_common, business.industry, 021001 nanoscience & nanotechnology, Drug development, Product life-cycle management, Pharmaceutical Preparations, Solubility, New product development, 0210 nano-technology, business
Abstract

This article intends to summarize the current views of the IQ Consortium Dissolution Working Group, which comprises various industry companies, on the roles of dissolution testing throughout pharmaceutical product development, registration, commercialization, and beyond. Over the past 3 decades, dissolution testing has evolved from a routine and straightforward test as a component of end-product release into a comprehensive set of tools that the developer can deploy at various stages of the product life cycle. The definitions of commonly used dissolution approaches, how they relate to one another and how they may be applied in modern drug development, and life cycle management is described in this article. Specifically, this article discusses the purpose, advantages, and limitations of quality control, biorelevant, and clinically relevant dissolution methods.

Published
2017

31. Approaches for Establishing Clinically Relevant Dissolution Specifications for Immediate Release Solid Oral Dosage Forms

Author

Andre Hermans, Andreas Abend, Limin Zhang, Dorys Argelia Diaz, Talia Flanagan, Gregory K. Webster, Haiyan Grady, Filippos Kesisoglou, Michael J. Cohen, David A. Hahn, Carrie A. Coutant, Yiqing Lin, and Yun Mao

Subjects
Therapeutic window, Computer science, business.industry, Pharmacology toxicology, Pharmaceutical Science, Administration, Oral, Context (language use), 02 engineering and technology, Pharmacology, 021001 nanoscience & nanotechnology, 030226 pharmacology & pharmacy, Models, Biological, Food and drug administration, 03 medical and health sciences, 0302 clinical medicine, Risk analysis (engineering), Solubility, New product development, Humans, Regulatory agency, Immediate release, 0210 nano-technology, business, Tablets
Abstract

This manuscript represents the perspective of the Dissolution Analytical Working Group of the IQ Consortium. The intent of this manuscript is to highlight the challenges of, and to provide a recommendation on, the development of clinically relevant dissolution specifications (CRS) for immediate release (IR) solid oral dosage forms. A roadmap toward the development of CRS for IR products containing active ingredients with a non-narrow therapeutic window is discussed, within the context of mechanistic dissolution understanding, supported by in-human pharmacokinetic (PK) data. Two case studies present potential outcomes of following the CRS roadmap and setting dissolution specifications. These cases reveal some benefits and challenges of pursuing CRS with additional PK data, in light of current regulatory positions, including that of the US Food and Drug Administration (FDA), who generally favor this approach, but with the understanding that both industry and regulatory agency perspectives are still evolving in this relatively new field. The CRS roadmap discussed in this manuscript also describes a way to develop clinically relevant dissolution specifications based primarily on dissolution data for batches used in pivotal clinical studies, acknowledging that not all IR product development efforts need to be supported by additional PK studies, albeit with the associated risk of potentially unnecessarily tight manufacturing controls. Recommendations are provided on what stages during the life cycle investment into in vivo studies may be valuable. Finally, the opportunities for CRS within the context of post-approval changes, Modeling and Simulation (M&S), and the application of biowaivers, are briefly discussed.

Published
2017

33. Patient-Centered Pharmaceutical Design to Improve Acceptability of Medicines: Similarities and Differences in Paediatric and Geriatric Populations

Author

Hannah Batchelor, Sejal R. Ranmal, Iwan W. Thomas, Talia Flanagan, Terry B. Ernest, Fang Liu, Mine Orlu-Gul, and Catherine Tuleu

Subjects
medicine.medical_specialty, Chemistry, Pharmaceutical, Population, Alternative medicine, MEDLINE, Review Article, Pharmacology, RS, Older population, Age groups, Patient-Centered Care, medicine, Humans, Pharmacology (medical), Child, education, Patient compliance, Aged, education.field_of_study, business.industry, Age Factors, Drug Design, Family medicine, Patient Compliance, business, Older people, Patient centred, Tablets
Abstract

Patient acceptability of a medicinal product is a key aspect in the development and prescribing of medicines. Children and older adults differ in many aspects from the other age subsets of population and require particular considerations in medication acceptability. This review highlights the similarities and differences in these two age groups in relation to factors affecting acceptability of medicines. New and conventional formulations of medicines are considered regarding their appropriateness for use in children and older people. Aspects of a formulation that impact acceptability in these patient groups are discussed, including, for example, taste/smell/viscosity of a liquid and size/shape of a tablet. A better understanding of the acceptability of existing formulations highlights opportunities for the development of new and more acceptable medicines and facilitates safe and effective prescribing for the young and older populations. Electronic supplementary material The online version of this article (doi:10.1007/s40265-014-0297-2) contains supplementary material, which is available to authorized users.

Published
2014

34. Biopharmaceutical aspects and implications of excipient variability in drug product performance

Author

Nikoletta Fotaki, James Mann, Talia Flanagan, Elizabeth Meehan, and Panagiota Zarmpi

Subjects
Calcium Phosphates, Computer science, Polymers, media_common.quotation_subject, Chemistry, Pharmaceutical, Molecular Conformation, Pharmaceutical Science, Excipient, Lactose, 02 engineering and technology, 030226 pharmacology & pharmacy, Dosage form, Quality by Design, Excipients, 03 medical and health sciences, 0302 clinical medicine, Materials Testing, medicine, Humans, Technology, Pharmaceutical, Quality (business), Particle Size, Cellulose, Pharmaceutical industry, media_common, Dosage Forms, business.industry, Final product, Temperature, General Medicine, Hydrogen-Ion Concentration, 021001 nanoscience & nanotechnology, Biotechnology, Gastrointestinal Tract, Biopharmaceutical, Solubility, Drug Design, Drug product, Biochemical engineering, 0210 nano-technology, business, Porosity, medicine.drug
Abstract

Implementation of Quality by Design approaches in pharmaceutical industry requires a sound understanding of the parameters triggering final product variability. Excipients, although generally regarded as inert components, are of great significance in terms of solid dosage form development and any variation in the material attributes may impact drug product performance. Sourcing, production and processing are contributing factors to excipient variability. Interchange between different suppliers can lead to final products with different quality attributes. Identification of excipient critical material attributes is not straightforward, as criticality must be linked to functionality and it is well recognized that the mechanisms by which excipients exert their action are not fully understood. Investigating the impact of excipient variability on in vitro dissolution could enable scientists to get an insight on the in vivo behavior of drug products and potentially tolerate variability. A thorough understanding of excipient material properties, product components interactions and the effect of the gastrointestinal tract heterogeneity on excipients and drug release is recommended. This review aims to present current knowledge on excipient critical material attributes and their link to biopharmaceutical behavior and dissolution characteristics. Attempts to describe the impact of physiological conditions on excipient functionality are also addressed. Excipient properties that are considered crucial to drug product performance in a biorelevant perspective are elucidated.

Published
2016

35. Recommended strategies for the oral administration of paediatric medicines with food and drinks in the context of their biopharmaceutical properties: a review

Author

Joana Martir, James Mann, Nikoletta Fotaki, and Talia Flanagan

Subjects
Drug, medicine.medical_specialty, Adolescent, media_common.quotation_subject, Drug Compounding, Pharmaceutical Science, Administration, Oral, Biological Availability, Context (language use), 02 engineering and technology, 030226 pharmacology & pharmacy, Pediatrics, Beverages, 03 medical and health sciences, Food-Drug Interactions, 0302 clinical medicine, Oral administration, Medicine, Humans, Child, media_common, Pharmacology, Dosage Forms, Health professionals, Adult patients, business.industry, Infant, Newborn, Infant, 021001 nanoscience & nanotechnology, Biotechnology, Biopharmaceutical, Pharmaceutical Preparations, Current practice, Food, Family medicine, Child, Preschool, 0210 nano-technology, business, Paediatric population
Abstract

Objectives This review focuses on the recommended strategies for the oral administration of paediatric medicines with food in the context of their biopharmaceutical properties. Key findings Acceptability of oral medicines in young patients is more challenging than in adult patients. Mixing oral dosage forms with foods and drinks is sometimes suggested to administer a specific dose and enhance compliance in the paediatric population. In this review, the strategies for the co-administration of paediatric medicines with food and drinks are discussed. Current administration practices as reported by healthcare professionals and parents/carers are compared with the relevant guidelines. Differences in the type of vehicles recommended to be used and actually used in current practice were identified. Correlations of the type of food recommended, the type of formulation and the drug's biopharmaceutical classification system (BCS) class were performed and revealed that recommendations should be made on a case-by-case basis. Summary The propensity for physiochemical or bioavailability changes that may occur from the co-administration of medicines with food and drinks in the paediatric population should be considered, and harmonisation of the recommended administration strategies is needed.

Published
2016

37. Formulation factors affecting acceptability of oral medicines in children

Author

Fang Liu, Hannah Batchelor, Talia Flanagan, Catherine Tuleu, Sejal R. Ranmal, Mine Orlu-Gul, Richard Kendall, Iwan W. Thomas, and Terry B. Ernest

Subjects
Dosage Forms, medicine.medical_specialty, Medical education, business.industry, Chemistry, Pharmaceutical, Alternative medicine, MEDLINE, Pharmaceutical Science, Administration, Oral, Pharmacology, Affect (psychology), Scientific evidence, RS, Dispersible tablet, Age groups, Medicine, Humans, Chemistry (relationship), business, Child, Pharmaceutical industry
Abstract

Acceptability of medicines in children and caregivers affects safety and effectiveness of medicinal treatments. The pharmaceutical industry is required to demonstrate acceptability of new paediatric formulations in target age groups as an integrated part of the development of these products (Kozarewicz, 2014). Two questions arise when trying to tackle this task: "which dosage form to choose for each target age group?" and "how to formulate it once the dosage form is decided?". Inevitably, both the regulator and the developer turn to scientific evidence for answers. Research has emerged in recent years to demonstrate age-appropriateness and patient acceptability of different dosage forms; however, such information is still fragmented and far from satisfactory to define efficient formulation development strategies for a diverse patient subset (Ranmal and Tuleu, 2013). This paper highlights how formulation factors affect the acceptability of different oral medicines in children (Table 1), and it is based on a more extensive review article by Liu et al. (Liu et al., 2014). Gaps in knowledge are highlighted in order to stimulate further research. In some areas, findings from studies conducted in adult populations may provide useful guidance for paediatric development and this is also discussed.

Published
2015

38. Inter-subject variability in intestinal drug solubility

Author

Abdul Basit, Paul D. Martin, Sarit C. Rabbie, and Talia Flanagan

Subjects
Drug, media_common.quotation_subject, Pharmaceutical Science, Administration, Oral, Biological Availability, Absorption (skin), Pharmacology, Buffers, Models, Biological, Intestinal absorption, In vivo, Furosemide, medicine, Humans, Solubility, media_common, Intestinal Secretions, Chemistry, Ileostomy, Dipyridamole, Hydrogen-Ion Concentration, Bioavailability, Intestinal Absorption, Colitis, Ulcerative, medicine.drug
Abstract

Variability in oral drug absorption is a well-known phenomenon, but it is often overlooked for its potential effects in oral drug delivery. Understanding the mechanisms behind absorption variability is crucial to understanding and predicting drug pharmacokinetics. In this study, the solubility of furosemide and dipyridamole - drugs known to have highly variable oral bioavailabilities - was investigated in individual ileostomy fluids from 10 subjects with ulcerative colitis. For comparison, drug solubility was also determined in pooled upper gastrointestinal fluids from healthy human subjects and simulated intestinal fluids. Ileostomy fluid characterization revealed high variability in buffer capacity and to a lesser degree for pH. Drug solubility in ileostomy fluids showed high variability. Correlation analysis revealed that dipyridamole solubility in these fluids is pH-dependent, whereas furosemide solubility was highly correlated to buffer capacity and pH. The implications of these results might partly explain the high variability in bioavailability in vivo, assuming that most of the observed variability is due to the absorption, and not the elimination, process.

Published
2015

40. In vivo methods for drug absorption - comparative physiologies, model selection, correlations with in vitro methods (IVIVC), and applications for formulation/API/excipient characterization including food effects

Author

Hans Lennernäs, René Holm, Talia Flanagan, P. Zane, Christer Tannergren, Michael B. Bolger, Christian Heinen, Marlies Kubbinga, Dieter Becker, Mai Anh Nguyen, Achiel Van Peer, Anders Lindahl, Sibylle Neuhoff, Marcus E. Brewster, Bertil Abrahamsson, Peter Langguth, Viera Lukacova, Christos Reppas, Erik Sjögren, Werner Weitschies, Amin Rostami Hodjegan, Patrick Augustijns, Uwe Münster, Hans-Paul Juretschke, Clive G. Wilson, Matthew D Harwood, and Joachim Brouwers

Subjects
Physiologically based pharmacokinetic modelling, Chemistry, Pharmaceutical, Pharmaceutical Science, Excipient, Administration, Oral, Computational biology, Pharmacology, Pharmaceutical formulation, Models, Biological, Intestinal absorption, Dosage form, Biopharmaceutics, Excipients, Food-Drug Interactions, IVIVC, Species Specificity, In vivo, medicine, Animals, Humans, Pharmacokinetics, Pharmaceutical sciences, Chemistry, Reproducibility of Results, Gastrointestinal Tract, Intestinal Absorption, Pharmaceutical Preparations, Models, Animal, Gastrointestinal Motility, medicine.drug
Abstract

This review summarizes the current knowledge on anatomy and physiology of the human gastrointestinal tract in comparison with that of common laboratory animals (dog, pig, rat and mouse) with emphasis on in vivo methods for testing and prediction of oral dosage form performance. A wide range of factors and methods are considered in addition, such as imaging methods, perfusion models, models for predicting segmental/regional absorption, in vitro in vivo correlations as well as models to investigate the effects of excipients and the role of food on drug absorption. One goal of the authors was to clearly identify the gaps in today's knowledge in order to stimulate further work on refining the existing in vivo models and demonstrate their usefulness in drug formulation and product performance testing.

Published
2013

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