Formulation predictive dissolution (fPD) testing to advance oral drug product development: an introduction to the US FDA funded ‘21st Century BA/BE’ project

Hens, Bart; Sinko, Patrick; Job, Nicholas; Dean, Meagan; Al-Gousous, Jozef; Salehi, Niloufar; Ziff, Robert M.; Tsume, Yasuhiro; Bermejo, Marival; Paixao, Paulo; Brasseur, James G.; Yu, Alex; Talattof, Arjang; Benninghoff, Gail; Langguth, Peter; Lennernas, Hans; Hasler, William L.; Marciani, Luca; Dickens, Joseph; Shedden, Kerby; Sun, Duxin; Amidon, Gregory E.; Amidon, Gordon L.

doi:10.1016/j.ijpharm.2018.06.050

Formulation predictive dissolution (fPD) testing to advance oral drug product development: an introduction to the US FDA funded ‘21st Century BA/BE’ project

Hens, Bart; Sinko, Patrick; Job, Nicholas; Dean, Meagan; Al-Gousous, Jozef; Salehi, Niloufar; Ziff, Robert M.; Tsume, Yasuhiro; Bermejo, Marival; Paixao, Paulo; Brasseur, James G.; Yu, Alex; Talattof, Arjang; Benninghoff, Gail; Langguth, Peter; Lennernas, Hans; Hasler, William L.; Marciani, Luca; Dickens, Joseph; Shedden, Kerby; Sun, Duxin; Amidon, Gregory E.; Amidon, Gordon L.

Authors

Bart Hens

Patrick Sinko

Nicholas Job

Meagan Dean

Jozef Al-Gousous

Niloufar Salehi

Robert M. Ziff

Yasuhiro Tsume

Marival Bermejo

Paulo Paixao

James G. Brasseur

Alex Yu

Arjang Talattof

Gail Benninghoff

Peter Langguth

Hans Lennernas

William L. Hasler

LUCA MARCIANI LUCA.MARCIANI@NOTTINGHAM.AC.UK
Professor of Gastrointestinal Imaging

Joseph Dickens

Kerby Shedden

Duxin Sun

Gregory E. Amidon

Gordon L. Amidon

Abstract

Over the past decade, formulation predictive dissolution (fPD) testing has gained increasing attention. Another mindset is pushed forward where scientists in our field are more confident to explore the in vivo behavior of an oral drug product by performing predictive in vitro dissolution studies. Similarly, there is an increasing interest in the application of modern computational fluid dynamics (CFD) frameworks and high-performance computing platforms to study the local processes underlying absorption within the gastrointestinal (GI) tract. In that way, CFD and computing platforms both can inform future PBPK-based in silico frameworks and determine the GI-motility-driven hydrodynamic impacts that should be incorporated into in vitro dissolution methods for in vivo relevance. Current compendial dissolution methods are not always reliable to predict the in vivo behavior, especially not for biopharmaceutics classification system (BCS) class 2/4 compounds suffering from a low aqueous solubility. Developing a predictive dissolution test will be more reliable, cost-effective and less time-consuming as long as the predictive power of the test is sufficiently strong. There is a need to develop a biorelevant, predictive dissolution method that can be applied by pharmaceutical drug companies to facilitate marketing access for generic and novel drug products. In 2014, Prof. Gordon L. Amidon and his team initiated a far-ranging research program designed to integrate (1) in vivo studies in humans in order to further improve the understanding of the intraluminal processing of oral dosage forms and dissolved drug along the gastrointestinal (GI) tract, (2) advancement of in vitro methodologies that incorporates higher levels of in vivo relevance and (3) computational experiments to study the local processes underlying dissolution, transport and absorption within the intestines performed with a new unique CFD based framework. Of particular importance is revealing the physiological variables determining the variability in in vivo dissolution and GI absorption from person to person in order to address (potential) in vivo BE failures. This paper provides an introduction to this multidisciplinary project, informs the reader about current achievements and outlines future directions.

Citation

Hens, B., Sinko, P., Job, N., Dean, M., Al-Gousous, J., Salehi, N., …Amidon, G. L. (2018). Formulation predictive dissolution (fPD) testing to advance oral drug product development: an introduction to the US FDA funded ‘21st Century BA/BE’ project. International Journal of Pharmaceutics, 548(1), https://doi.org/10.1016/j.ijpharm.2018.06.050

Journal Article Type	Article
Acceptance Date	Jun 22, 2018
Online Publication Date	Jun 23, 2018
Publication Date	Sep 5, 2018
Deposit Date	Jul 6, 2018
Publicly Available Date	Jun 24, 2019
Journal	International Journal of Pharmaceutics
Print ISSN	0378-5173
Electronic ISSN	0378-5173
Publisher	Elsevier
Peer Reviewed	Peer Reviewed
Volume	548
Issue	1
DOI	https://doi.org/10.1016/j.ijpharm.2018.06.050
Keywords	In vivo dissolution ; Bioequivalence ; Bioavailability ; Oral absorption ; MRI ; Manometry ; Computational fluid dynamics
Public URL	https://nottingham-repository.worktribe.com/output/949875
Publisher URL	https://www.sciencedirect.com/science/article/pii/S0378517318304496

Files

In Vivo Predictive Dissolution_accepted.pdf (1.3 Mb)
PDF

Copyright Statement
Copyright information regarding this work can be found at the following address: http://creativecommons.org/licenses/by-nc-nd/4.0