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2. A method for the tribological assessment of oral pharmaceutical liquids

Author

Hyun Joo, Lee, R Gary, Hollenbeck, Jill A, Morgan, Amy, Kruger Howard, Akhtar, Siddiqui, Vilayat A, Sayeed, Arzu, Selen, and Stephen W, Hoag

Subjects
Pharmacology, Friction, Suspensions, Viscosity, Drug Compounding, Lubrication, Organic Chemistry, Drug Discovery, Humans, Pharmaceutical Science, Child
Abstract

Patient acceptance of pediatric formulations is critical to compliance and consequently therapeutic outcomes; thus, having anThe discriminating potential of the method was examined using tribology profiles (coefficient of friction (COF) vs. sliding speed) for commercially available products and products made for this study with widely varying sweetness, thickness, and grittiness; these formulations were used to judge the sensitivity of the method. Samples were measured using 3M Transpore™ surgical tape to simulate the tongue surface, steel half ring geometry, constant gap setting, target axial force of 2 N in a 600 s exponential ramp for rotation speed.The COF ranged from 0.1 to 0.6. For the speeds studied, the high viscosity commercial suspension ibuprofen drops and acetaminophen suspension show a classic Stribeck curve with an increasing COF at the higher rotation speeds, which indicates these formulations entered the hydrodynamic lubrication phase, while the lower viscosity suspensions only reached the mixed lubrication phase.The contribution of particles affects the COF in a dynamic tribologic pattern compared to products that are categorized as either low gritty or high viscosity. These results are important as they provide a potentially rapid

Published
2022
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3. Harnessing formulation and clinical pharmacology knowledge for efficient pediatric drug development: Overview and discussions from M-CERSI pediatric formulation workshop 2019

Author

Arzu Selen, Hao Zhu, Elimika Pfuma Fletcher, Shailly Mehrotra, Jack Cook, S.Y. Amy Cheung, Karen C. Thompson, Yuet Mei Khong, Lea Cunningham, Hari Cheryl Sachs, Jing Liu, Akhtar Siddiqui, Jian Wang, Vivek S. Purohit, and Justin L. Hay

Subjects
Engineering, Drug Industry, Chemistry, Pharmaceutical, education, Pharmaceutical Science, 02 engineering and technology, 030226 pharmacology & pharmacy, Session (web analytics), law.invention, 03 medical and health sciences, 0302 clinical medicine, Drug Development, law, Humans, Child, Pharmaceutical industry, Strategic planning, Clinical pharmacology, business.industry, General Medicine, 021001 nanoscience & nanotechnology, Pediatric drug, Engineering management, Pharmaceutical Preparations, Drug development, Pharmacology, Clinical, New product development, InformationSystems_MISCELLANEOUS, 0210 nano-technology, business, Biotechnology
Abstract

A pediatric formulation workshop entitled "Pediatric Formulations: Challenges of Today and Strategies for Tomorrow" was held to advance pediatric drug product development efforts in both pre-competitive and competitive environments. The workshop had four main sessions discussing key considerations of Formulation, Analytical, Clinical and Regulatory. This paper focuses on the clinical session of the workshop. It provides an overview of the discussion on the interconnection of pediatric formulation design and development, clinical development strategy and pediatric clinical pharmacology. The success of pediatric drug product development requires collaboration of multi-disciplinary teams across the pharmaceutical industry, consortiums, foundations, academia and global regulatory agencies. Early strategic planning is essential to ensure alignment among major stakeholders of different functional teams. Such an alignment is particularly critical in the collaboration between formulators and clinical pharmacology teams.

Published
2021
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4. Pediatric formulation development – Challenges of today and strategies for tomorrow: Summary report from M−CERSI workshop 2019

Author

Daniel Schaufelberger, Asha Rajapakshe, Stephen W. Hoag, Matthew Santangelo, Jing Liu, Ramesh Sood, Trupti Dixit, Steven Mount, Erica Radden, Karen C. Thompson, Mona Khurana, Shailly Mehrotra, Jian Wang, Biplob Mitra, Jamzad Shahla, Sandra Klein, John J. Alexander, Maren Kuhli, Robert Louis Ternik, Jennifer Walsh, Arzu Selen, Yuet Mei Khong, Elizabeth Galella, Stuart Charlton, David Cheng Thiam Tan, and Elimika Pfuma Fletcher

Subjects
Chemistry, Pharmaceutical, Center of excellence, education, Pharmaceutical Science, 02 engineering and technology, Pediatrics, 030226 pharmacology & pharmacy, Session (web analytics), Excipients, 03 medical and health sciences, 0302 clinical medicine, Drug Development, Humans, Regulatory science, Child, Panel discussion, Medical education, General Medicine, 021001 nanoscience & nanotechnology, Pediatric drug, Framing (social sciences), Pharmaceutical Preparations, Drug product, 0210 nano-technology, Psychology, Regional differences, Tablets, Biotechnology
Abstract

A workshop on "Pediatric Formulation Development: Challenges of Today and Strategies for Tomorrow" was organized jointly by the University of Maryland's Center of Excellence in Regulatory Science and Innovation (M-CERSI), the U.S. Food and Drug Administration (FDA) and the International Consortium for Innovation and Quality in Pharmaceutical Development (IQ) Drug Product Pediatric Working Group (PWG). This multi-disciplinary, pediatric focused workshop was held over a two-day period (18-19 Jun 2019) and consisted of participants from industry, regulatory agencies, academia and other organizations from both US and Europe. The workshop consisted of sequential sessions on formulation, analytical, clinical, and regulatory and industry lessons learned and future landscape. Each session began with a series of short framing presentations, followed by facilitated breakout sessions and panel discussion. The formulation session was dedicated to three main topics pertaining to drug product acceptability, excipients in pediatrics and oral administration device considerations. The analytical session discussed key considerations for dosing vehicle selection and analytical strategies for testing of different dosage forms, specifically mini-tablets (multiparticulates). The clinical session highlighted the influence of pediatric pharmacokinetics prediction on formulation design, pediatric drug development strategies and clinical considerations to support pediatric formulation design. The regulatory and industry lessons learned and future landscape session explored the regional differences that exist in regulatory expectations, requirements for pediatric formulation development, and key patient-centric factors to consider when developing novel pediatric formulations. This session also discussed potential collaboration opportunities and tools for pediatric formulation development. This manuscript summarizes the key discussions and outcomes of all the sessions in the workshop with a broadened review and discussion of the topics that were covered.

Published
2021
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5. Contribution of Uptake and Efflux Transporters to Oral Pharmacokinetics of Furosemide

Author

Mayur K. Ladumor, Bhagwat Prasad, Aarzoo Thakur, Revathi Chapa, Sheena Sharma, Arzu Selen, Abdul Basit, Cindy Yanfei Li, and Saranjit Singh

Subjects
Physiologically based pharmacokinetic modelling, Organic anion transporter 1, biology, Chemistry, General Chemical Engineering, Multidrug resistance-associated protein 2, medicine.medical_treatment, Furosemide, General Chemistry, Pharmacology, Article, Bioavailability, Organic anion-transporting polypeptide, Pharmacokinetics, biology.protein, medicine, Diuretic, QD1-999, medicine.drug
Abstract

Furosemide is a widely used diuretic for treating excessive fluid accumulation caused by disease conditions like heart failure and liver cirrhosis. Furosemide tablet formulation exhibits variable pharmacokinetics (PK) with bioavailability ranging from 10 to almost 100%. To explain the variable absorption, we integrated the physicochemical, in vitro dissolution, permeability, distribution, and the elimination parameters of furosemide in a physiologically-based pharmacokinetic (PBPK) model. Although the intravenous PBPK model reasonably described the observed in vivo PK data, the reported low passive permeability failed to capture the observed data after oral administration. To mechanistically justify this discrepancy, we hypothesized that transporter-mediated uptake contributes to the oral absorption of furosemide in conjunction with passive permeability. Our in vitro results confirmed that furosemide is a substrate of intestinal breast cancer resistance protein (BCRP), multidrug resistance-associated protein 4 (MRP4), and organic anion transporting polypeptide 2B1 (OATP2B1), but it is not a substrate of P-glycoprotein (P-gp) and MRP2. We then estimated the net transporter-mediated intestinal uptake and integrated it into the PBPK model under both fasting and fed conditions. Our in vitro data and PBPK model suggest that the absorption of furosemide is permeability-limited, and OATP2B1 and MRP4 are important for its permeability across intestinal membrane. Further, as furosemide has been proposed as a probe substrate of renal organic anion transporters (OATs) for assessing clinical drug-drug interactions (DDIs) during drug development, the confounding effects of intestinal transporters identified in this study on furosemide PK should be considered in the clinical transporter DDI studies.

Published
2020

6. Drug solubilization during simulated pediatric gastro-intestinal digestion

Author

Arzu Selen, Ragna Berthelsen, Anette Müllertz, Ali Jamil, and Caroline Kofoed-Djursner

Subjects
Pharmaceutical Science, Administration, Oral, Biological Availability, 02 engineering and technology, 030226 pharmacology & pharmacy, 03 medical and health sciences, 0302 clinical medicine, Digestion (alchemy), medicine, Humans, Solubility, Child, Aqueous solution, Chromatography, Chemistry, Aqueous two-phase system, 021001 nanoscience & nanotechnology, Ibuprofen, Bioavailability, Pharmaceutical Preparations, Digestion, 0210 nano-technology, Thickening agent, Xanthan gum, medicine.drug
Abstract

To increase the understanding of how drugs behave following oral administration to the pediatric population, the aim of the present study was to investigate the solubilization of fluconazole and ibuprofen during simulated gastro-intestinal (GI) digestion, using an immediate transfer model mimicking pediatric GI digestion. The effects of infant formula and digestion, on the drug solubilization, were studied using simulated fasted and fed state digestion media in the presence and absence of digestive enzymes. Additionally, the effect of digestion media viscosity on the solubilization process was investigated. It was found that the solubilization of fluconazole was unaffected by all tested parameters, as the entire estimated dose equivalent was solubilized in the aqueous phase throughout all digestion studies. In contrast, the solubilization of ibuprofen was affected by all the tested parameters, i.e. in the fasted state, the solubilization of ibuprofen was limited by its solubility in the aqueous phase of the simulated GI digestion media, whereas the solubilization in the fed state was affected by drug partitioning between the lipid and the aqueous phases, and therefore by the digestion of the lipid phase. Adding Nestle Thicken Up™, containing xanthan gum as a thickening agent, to the digestion medium increased its viscosity, which in turn resulted in a reduced initial digestion rate, increased pH fluctuations, as well as high variability in all drug solubilization data as evident in large standard deviations. Furthermore, the increased digestion medium viscosity decreased the drug recovery from the combined pellet and aqueous phase. The observed viscosity effects might translate into a more variable and lower oral bioavailability.

Published
2020

7. 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
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9. Development and Validation of Sample Preparation and an HPLC Analytical Method for Dissolution Testing in Fed-State Simulated Gastric Fluid—Illustrating Its Application for Ibuprofen and Ketoconazole Immediate Release Tablets

Author

Akhtar Siddiqui, Zongming Gao, Poonam Delvadia, Kenneth R. Morris, Rusha Sardhara, Harsh S. Shah, Kajal Nahar, Arzu Selen, and Ting Xu

Subjects
Analyte, Antifungal Agents, Pharmaceutical Science, Ibuprofen, 02 engineering and technology, Aquatic Science, Bioequivalence, 030226 pharmacology & pharmacy, High-performance liquid chromatography, law.invention, Gastric Acid, 03 medical and health sciences, 0302 clinical medicine, Drug Development, law, Drug Discovery, Dissolution testing, Sample preparation, Solubility, Dissolution, Chromatography, High Pressure Liquid, Ecology, Evolution, Behavior and Systematics, Filtration, Chromatography, Ecology, Chemistry, Anti-Inflammatory Agents, Non-Steroidal, Reproducibility of Results, General Medicine, 021001 nanoscience & nanotechnology, Ketoconazole, 0210 nano-technology, Agronomy and Crop Science, Tablets
Abstract

Dissolution testing and solubility determinations in different biorelevant media have gained considerable interest in the pharmaceutical industry from early-stage development of new products to forecasting bioequivalence. Among all biorelevant fluids, the preparation of fed-state simulated gastric fluid (FeSSGF) and handling of samples from dissolution/solubility testing in FeSSGF is considered to be relatively challenging. Challenges include maintaining the stability of FeSSGF medium upon sampling, filtration, and mitigating analytical interference of excipients and milk components. To overcome these challenges, standard and uniform working practices are required that are not only helpful in preparation of stable FeSSGF but also serve as a harmonizing guide for the collection of dissolution/solubility samples and their subsequent processing (i.e., handling and assay). The optimization of sample preparation methodology is crucial to reduce method-related variance by ensuring specificity, robustness, and reproducibility with acceptable recovery of the analytes. The sample preparation methodology includes a combination of techniques including filtration, solvent treatment, and centrifugation to remove the interfering media-related components and excipients from the analyte. The analytes of interest were chromatographically separated from the interfering analytes to quantify the drug concentration using the new high-performance liquid chromatography methods with ultraviolet detection. The methods developed allow rapid sample preparation, acceptable specificity, reproducible recoveries (greater than 95% of label claim), and quantification of study drugs (ibuprofen and ketoconazole). The sample preparation technique and method considerations provided here for ibuprofen and ketoconazole can serve as a starting point for solubility and dissolution testing of other small molecules in FeSSGF.

Published
2020
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10. A6 - Investigating the role of drug transporters in furosemide absorption, food-effect and elimination using a proteomics informed-mechanistic PBPK modeling approach

Author

Revathi Chapa, Mayur K. Ladamor, Arzu Selen, Abdul Basit, Aarzoo Thakur, Saranjit Singh, Sheena Sharma, Cindy Yanfei Li, and Bhagwat Prasad

Subjects
Pharmacology, Drug, Physiologically based pharmacokinetic modelling, FOOD EFFECT, Chemistry, media_common.quotation_subject, Pharmaceutical Science, Furosemide, Transporter, Proteomics, Biophysics, medicine, Pharmacology (medical), Pharmaceutical sciences, Absorption (electromagnetic radiation), media_common, medicine.drug
Published
2020
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11. Studying furosemide solubilization using an in vitro model simulating gastrointestinal digestion and drug solubilization in neonates and young infants

Author

Mette Klitgaard, Arzu Selen, Anette Müllertz, Ragna Berthelsen, and Philip Jonas Sassene

Subjects
0301 basic medicine, Drug, media_common.quotation_subject, Population, Pharmaceutical Science, Pharmacology, 030226 pharmacology & pharmacy, Models, Biological, Dosage form, 03 medical and health sciences, Food-Drug Interactions, 0302 clinical medicine, In vivo, Furosemide, Intestine, Small, medicine, Humans, education, Diuretics, media_common, education.field_of_study, Chemistry, Stomach, Infant, Newborn, Infant, Fasting, Hydrogen-Ion Concentration, Small intestine, 030104 developmental biology, medicine.anatomical_structure, Solubility, Gastric Mucosa, Digestion, Powders, medicine.drug, Tablets
Abstract

Objective The aim of the present study was to study the oral performance of furosemide in neonates and young infants using a newly developed in vitro model simulating digestion and drug solubilization in the gastrointestinal (GI) tract of the human neonate and young infant population (age 0–2 months). Methods The utilized in vitro model was designed to mimic the digestion and drug solubilization processes occurring in the stomach, and the small intestine of the neonate and young infant population, using physiologically relevant media, volumes and digestive enzymes. Overall the experimental model setup was based on the dynamic in vitro lipolysis model previously described by Fernandez et al. (2009) . The amount of furosemide solubilized in the aqueous phase during a digestion study was used as an estimate for the amount of drug available for absorption in vivo. By varying different factors in the model setup, e.g. presence of food (food-effect), effect of digestion (tested with and without addition of digestive enzymes), and properties of the dosage form, it was possible to estimate the importance of these factors in vivo. Key findings and conclusions The present in vitro data suggest that the oral performance of furosemide in neonates and young infants will be increased by the presence of food (frequent feedings) due to increased drug solubilization, however, not influenced by the GI digestion of this food. The properties of the dosage form (immediate release tablets) did not affect the drug solubilization as compared to administration of the pure drug powder.

Published
2017

12. Optimizing Clinical Drug Product Performance: Applying Biopharmaceutics Risk Assessment Roadmap (BioRAM) and the BioRAM Scoring Grid

Author

Talia Flanagan, Jack Cook, Paul A. Dickinson, Abu T.M. Serajuddin, Filippos Kesisoglou, Anette Müllertz, John R. Crison, Hitesh Mistry, Maria T. Cruanes, Arzu Selen, James E. Polli, and Marilyn N. Martinez

Subjects
0301 basic medicine, Process management, Computer science, media_common.quotation_subject, Biopharmaceutics, Pharmaceutical Science, Grid, 030226 pharmacology & pharmacy, Toxicology, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Action (philosophy), Drug development, Drug product, Leverage (statistics), Risk assessment, Function (engineering), media_common
Abstract

The aim of Biopharmaceutics Risk Assessment Roadmap (BioRAM) and the BioRAM Scoring Grid is to facilitate optimization of clinical performance of drug products. BioRAM strategy relies on therapy-driven drug delivery and follows an integrated systems approach for formulating and addressing critical questions and decision-making (J Pharm Sci. 2014,103(11): 3777-97). In BioRAM, risk is defined as not achieving the intended in vivo drug product performance, and success is assessed by time to decision-making and action. Emphasis on time to decision-making and time to action highlights the value of well-formulated critical questions and well-designed and conducted integrated studies. This commentary describes and illustrates application of the BioRAM Scoring Grid, a companion to the BioRAM strategy, which guides implementation of such an integrated strategy encompassing 12 critical areas and 6 assessment stages. Application of the BioRAM Scoring Grid is illustrated using published literature. Organizational considerations for implementing BioRAM strategy, including the interactions, function, and skillsets of the BioRAM group members, are also reviewed. As a creative and innovative systems approach, we believe that BioRAM is going to have a broad-reaching impact, influencing drug development and leading to unique collaborations influencing how we learn, and leverage and share knowledge.

Published
2016
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13. In Vitro Model Simulating Gastro-Intestinal Digestion in the Pediatric Population (Neonates and Young Infants)

Author

Ragna Berthelsen, Philip Jonas Sassene, Arzu Selen, Danna Kamstrup, and Anette Müllertz

Subjects
0301 basic medicine, Drug, media_common.quotation_subject, Chemistry, Pharmaceutical, Pharmaceutical Science, Administration, Oral, Aquatic Science, Pharmacology, 030226 pharmacology & pharmacy, Models, Biological, Pediatrics, In vitro model, Bile Acids and Salts, 03 medical and health sciences, 0302 clinical medicine, Drug Delivery Systems, Oral administration, In vivo, Drug Discovery, Medicine, Humans, Dissolution testing, Computer Simulation, Ecology, Evolution, Behavior and Systematics, media_common, Ecology, business.industry, General Medicine, Gastrointestinal Tract, 030104 developmental biology, Intestinal Absorption, Pharmaceutical Preparations, Solubility, Drug delivery, Digestion, business, Agronomy and Crop Science, Pediatric population
Abstract

The focus on drug delivery for the pediatric population has been steadily increasing in the last decades. In terms of developing in vitro models simulating characteristics of the targeted pediatric population, with the purpose of predicting drug product performance after oral administration, it is important to simulate the gastro-intestinal conditions and processes the drug will encounter upon oral administration. When a drug is administered in the fed state, which is commonly the case for neonates, as they are typically fed every 3 h, the digestion of the milk will affect the composition of the fluid available for drug dissolution/solubilization. Therefore, in order to predict the solubilized amount of drug available for absorption, an in vitro model simulating digestion in the gastro-intestinal tract should be utilized. In order to simulate the digestion process and the drug solubilization taking place in vivo, the following aspects should be considered; physiologically relevant media, media volume, use of physiological enzymes in proper amounts, as well as correct pH and addition of relevant co-factors, e.g., bile salts and co-enzymes. Furthermore, physiological transit times and appropriate mixing should be considered and mimicked as close as possible. This paper presents a literature review on physiological factors relevant for digestion and drug solubilization in neonates. Based on the available literature data, a novel in vitro digestion model simulating digestion and drug solubilization in the neonate and young infant pediatric population (2 months old and younger) was designed.

Published
2016

14. Advancing Product Quality: a Summary of the Second FDA/PQRI Conference

Author

Mary Oates, Sau L. Lee, Tony Tong, Ganapathy Mohan, Giuseppe Randazzo, Michael P. Thien, Geoffrey K. Wu, Adam C. Fisher, Robert Ju, Richard T Lostritto, Emanuela Lacana, Bruce D. Johnson, Katherine M. Tyner, Stephen W. Hoag, Brian Hasselbalch, Grace McNally, Susan Rosencrance, Anna Schwendeman, Louis Yu, Moheb Nasr, Martin VanTrieste, Tara Gooen Bizjak, Henry A. Havel, Paul Seo, Siva Vaithiyalingam, Barbara Allen, Lawrence X. Yu, Ilgaz Akseli, Thomas F. O’Connor, Gregory E. Amidon, Ramesh Sood, Roger Nosal, Margaret Caulk, Ashley Boam, Janet Woodcock, Paula R Katz, Fionnuala Walsh, Robert Iser, Vinod P. Shah, Scott Furness, Larisa Wu, Russell Wesdyk, G. K. Raju, Joseph Famulare, Mahesh Ramanadham, Arzu Selen, Mehul Mehta, James E. Polli, David Doleski, Diane Zezza, and Bernhardt L. Trout

Subjects
Quality Control, Drug Industry, Chemistry, Pharmaceutical, Pharmaceutical Science, 02 engineering and technology, Meeting Report, 030226 pharmacology & pharmacy, 03 medical and health sciences, 0302 clinical medicine, Critical to quality, Pharmaceutical engineering, Humans, Good manufacturing practice, Prescription Drug User Fee Act, New drug application, business.industry, United States Food and Drug Administration, Investigational New Drug, Congresses as Topic, 021001 nanoscience & nanotechnology, United States, Engineering management, Quality management system, 0210 nano-technology, business, Quality assurance
Abstract

The October 2015 FDA/PQRI Conference on Advancing Product Quality provided a forum for the exchange of ideas focused on drug product quality between regulatory agencies, the pharmaceutical industry, and academia. Key topics of the 2015 conference were (i) emerging regulatory initiatives; (ii) regulatory submission, assessment, and inspection; (iii) product and process development; and (iv) manufacturing, risk management, and quality assurance. Key discussion points and recommendations for each track and session have been captured. With powerful advancements in product quality encompassing regulatory, industrial, and technological elements, an era of rapidly improving pharmaceutical quality is underway. At the conference, one theme prevailed through all sessions: regulators, industry, and academia are aligned in their desire for drug product quality on behalf of the ultimate stakeholder–the patient. 3D three dimensional, ANDA abbreviated new drug application, API active pharmaceutical ingredient, ASTM American society for testing and materials, BCS biopharmaceutics classification system, BLA biological license application, CGMP current good manufacturing practice, CMA critical material attribute, CMC chemistry manufacturing and controls, CPP critical process parameters, CQA critical quality attribute, CU content uniformity, DLS dynamic light scattering, DOE design of experiment, EMA European Medicines Agency, EWG Expert Working Group, FDA Food and Drug Administration, GDUFA generic drug user fee amendments, HCl Hydrogen Chloride, ICH International Conference on Harmonisation of Technical Requirements for Registration of Pharmaceuticals for Human Use, IND investigational new drug, IQA integrated quality assessment, IR immediate release, IR information request, ISPE International Society for Pharmaceutical Engineering, MIT Massachusetts Institute of Technology, NDA new drug application, NIPP new inspection protocols project, NIR near-infrared spectroscopy, OPQ office of pharmaceutical quality, PAI pre-approval inspection, PAT process analytical technology, PDUFA prescription drug user fee act, PHS public health service, PQRI Product Quality Research Institute, PQS pharmaceutical quality system, QbD quality by design, QMS quality management system, QRM quality risk management, QTPP quality target product profile, RPM revolutions per minute, RTRT real time release testing, SUPAC scale-up and post-approval changes, UDU uniformity of dosage units, USP U.S. Pharmacopeial Convention.

Published
2015

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