Your search keyword '"Dermot F. McGinnity"' showing total 2 results

1. Challenges and Opportunities for Improved Drug–Drug Interaction Predictions for Renal OCT2 and MATE1/2‐K Transporters

Author

Srinivasan Krishnan, Diane Ramsden, Douglas Ferguson, Simone H. Stahl, Joanne Wang, Dermot F. McGinnity, and Niresh Hariparsad

Subjects

Pharmacology, Renal Elimination, HEK293 Cells, Organic Cation Transport Proteins, Humans, Organic Cation Transporter 2, Drug Interactions, Pharmacology (medical), Kidney

Abstract

Transporters contribute to renal elimination of drugs; therefore drug disposition can be impacted if transporters are inhibited by comedicant drugs. Regulatory agencies have provided guidelines to assess potential drug-drug interaction (DDI) risk for renal organic cation transporter 2 (OCT2) and multidrug and toxin extrusion 1 and 2-K (MATE1/2-K) transporters. Despite this, there are challenges with translating in vitro data using currently available tools to obtain a quantitative assessment of DDI risk in the clinic. Given the high number of drugs and new molecular entities showing in vitro inhibition toward OCT2 and/or MATE1/2-K and the lack of translation to clinically significant effects, it is reasonable to question whether the current in vitro assay design and modeling practice has led to unnecessary clinical evaluation. The aim of this review is to assess and discuss available in vitro and clinical data along with prediction models intended to provide clinical context of risk, including static models proposed by regulatory agencies and physiologically-based pharmacokinetic models, in order to identify best practices and areas of future opportunity. This analysis highlights that different in vitro assay designs, including substrate and cell systems used, strongly influence the derived concentration of drug producing 50% inhibition values and contribute to high variability observed across laboratories. Furthermore, the lack of sensitive index substrates coupled with specific inhibitors for individual transporters necessitates the use of complex models to evaluate clinical DDI risk.

Published

2022

2. Current Practices, Gap Analysis, and Proposed Workflows for PBPK Modeling of Cytochrome P450 Induction: An Industry Perspective

Author

Tamara D. Cabalu, Mengyao Li, Kenichi Umehara, Dermot F. McGinnity, Neil Parrott, Kunal S Taskar, Arian Emami Riedmaier, Micaela B Reddy, Hugues Chanteux, Martin E. Dowty, Justine Badée, Jialin Mao, Jayaprakasam Bolleddula, Loeckie de Zwart, Jessica Rehmel, Dwaipayan Mukherjee, Chandra Prakash, Niresh Hariparsad, Masakatsu Kotsuma, Diane Ramsden, Karthik Venkatakrishnan, Venkatesh Pilla Reddy, and Kushal Shah

Subjects

Pharmacology, Physiologically based pharmacokinetic modelling, Knowledge management, Computer science, business.industry, Drug-drug interaction, Pharmacokinetic modeling, Survey result, Gap analysis, Models, Biological, Workflow, Cytochrome P-450 Enzyme System, Cytochrome P-450 CYP3A, Humans, Computer Simulation, Drug Interactions, Pharmacology (medical), business

Abstract

The International Consortium for Innovation and Quality (IQ) Physiologically Based Pharmacokinetic (PBPK) Modeling Induction Working Group (IWG) conducted a survey across participating companies around general strategies for PBPK modeling of induction, including experience with its utility to address various questions, regulatory interactions, and regulatory acceptance. The results highlight areas where PBPK modeling is used with high confidence and identifies opportunities where confidence is lower and further evaluation is needed. To enhance the survey results, the PBPK-IWG also collected case studies and analyzed recent literature examples where PBPK models were applied to predict CYP3A induction-mediated drug-drug interactions. PBPK modeling of induction has evolved and progressed significantly, proving to have great potential to accelerate drug discovery and development. With the aim of enabling optimal use for new molecular entities that are either substrates and/or inducers of CYP3A, the PBPK-IWG proposes initial workflows for PBPK application, discusses future trends, and identifies gaps that need to be addressed.

Published

2021