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1.
AAPS J ; 22(1): 17, 2019 12 20.
Artículo en Inglés | MEDLINE | ID: mdl-31863289

RESUMEN

Dissolution experiments to support an active pharmaceutical ingredient (API) form change in Verubecestat immediate release tablets were performed following current regulatory guidance published by health authorities in Canada, Australia, Japan, the EU, and the USA. Verubecestat API meets the requirements of a Biopharmaceutics Classification System class 1 compound and tablets are very  rapidly dissolving in aqueous dissolution media. While the in vitro data were reviewed favorably by these agencies, the divergence in regulatory requirements led to unnecessary work and highlights several issues companies operating globally face to justify product changes that have very little impact on quality. The data presented in this manuscript provide a compelling case for adjustments to the current draft ICH M9 guidance which provides recommendations for biowaiver applications. Specifically, this manuscript contains recommendations with respect to API attributes, selection of dissolution media and apparatus, and methods to assess dissolution similarity if needed, which should be considered for inclusion in a science- and risk-based global guidance document to benefit patients, regulators, and the pharmaceutical industry.


Asunto(s)
Biofarmacia/normas , Química Farmacéutica/métodos , Óxidos S-Cíclicos/normas , Desarrollo de Medicamentos/métodos , Tiadiazinas/normas , Australia , Disponibilidad Biológica , Canadá , Química Farmacéutica/tendencias , Óxidos S-Cíclicos/química , Desarrollo de Medicamentos/tendencias , Europa (Continente) , Predicción , Humanos , Japón , Tiadiazinas/química , Estados Unidos
2.
AAPS J ; 21(3): 32, 2019 02 21.
Artículo en Inglés | MEDLINE | ID: mdl-30790200

RESUMEN

This manuscript represents the perspective of the Dissolution Working Group of the International Consortium for Innovation and Quality in Pharmaceutical Development (IQ) and of two focus groups of the American Association of Pharmaceutical Scientists (AAPS): Process Analytical Technology (PAT) and In Vitro Release and Dissolution Testing (IVRDT). The intent of this manuscript is to show recent progress in the field of in vitro predictive dissolution modeling and to provide recommended general approaches to developing in vitro predictive dissolution models for both early- and late-stage formulation/process development and batch release. Different modeling approaches should be used at different stages of drug development based on product and process understanding available at those stages. Two industry case studies of current approaches used for modeling tablet dissolution are presented. These include examples of predictive model use for product development within the space explored during formulation and process optimization, as well as of dissolution models as surrogate tests in a regulatory filing. A review of an industry example of developing a dissolution model for real-time release testing (RTRt) and of academic case studies of enabling dissolution RTRt by near-infrared spectroscopy (NIRS) is also provided. These demonstrate multiple approaches for developing data-rich empirical models in the context of science- and risk-based process development to predict in vitro dissolution. Recommendations of modeling best practices are made, focused primarily on immediate-release (IR) oral delivery products for new drug applications. A general roadmap is presented for implementation of dissolution modeling for enhanced product understanding, robust control strategy, batch release testing, and flexibility toward post-approval changes.


Asunto(s)
Química Farmacéutica/métodos , Desarrollo de Medicamentos/métodos , Liberación de Fármacos , Modelos Biológicos , Administración Oral , Cápsulas , Comprimidos
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