An Intercompany Perspective on Practical Experiences of Predicting, Optimizing and Analyzing High Concentration Biologic Therapeutic Formulations

An Intercompany Perspective on Practical Experiences of Predicting, Optimizing and Analyzing High Concentration Biologic Therapeutic Formulations

Developing high-dose biologic drugs for subcutaneous injection often requires high-concentration formulations and optimizing viscosity, solubility, and stability while overcoming analytical, manufacturing, and administration challenges. To understand industry approaches for developing high-concentra...

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Bibliographic Details
Published in:Journal of pharmaceutical sciences Vol. 112; no. 2; p. 359
Main Authors: Desai, Preeti G, Garidel, Patrick, Gbormittah, Francisca O, Kamen, Douglas E, Mills, Brittney J, Narasimhan, Chakravarthy N, Singh, Shubhadra, Stokes, Elaine S E, Walsh, Erika R
Format: Journal Article
Language:English
Published: United States 01-02-2023
Subjects:
Antibodies, Monoclonal
Biological Products
Excipients
Solubility
Viscosity
Viscosity
Biotechnology
Stability
Protein formulations
Analysis
Formulation
Solubility
High concentration
Monoclonal antibody
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Summary:Developing high-dose biologic drugs for subcutaneous injection often requires high-concentration formulations and optimizing viscosity, solubility, and stability while overcoming analytical, manufacturing, and administration challenges. To understand industry approaches for developing high-concentration formulations, the Formulation Workstream of the BioPhorum Development Group, an industry-wide consortium, conducted an inter-company collaborative exercise which included several surveys. This collaboration provided an industry perspective, experience, and insight into the practicalities for developing high-concentration biologics. To understand solubility and viscosity, companies desire predictive tools, but experience indicates that these are not reliable and experimental strategies are best. Similarly, most companies prefer accelerated and stress stability studies to in-silico or biophysical-based prediction methods to assess aggregation. In addition, optimization of primary container-closure and devices are pursued to mitigate challenges associated with high viscosity of the formulation. Formulation strategies including excipient selection and application of studies at low concentration to high-concentration formulations are reported. Finally, analytical approaches to high concentration formulations are presented. The survey suggests that although prediction of viscosity, solubility, and long-term stability is desirable, the outcome can be inconsistent and molecule dependent. Significant experimental studies are required to confirm robust product definition as modeling at low protein concentrations will not necessarily extrapolate to high concentration formulations.
ISSN:1520-6017
DOI:10.1016/j.xphs.2022.11.020