2018

Rational Design of Liquid Protein Formulations: Application of Biophysical Stability Predictors and Descriptors to Reformulate Biotherapeutics

Successful development of liquid biopharmaceutical formulations requires careful assessment of the biophysical properties of the protein in solution, primarily focused on achieving optimal conformational and colloidal stability of the drug-substance molecule (1–11). It also involves extensive stability studies under stressed conditions. Using state-of-the-art biophysical tools for characterization of developed products, those studies are based on key biophysical descriptors and extended particulate characterization methods (subvisible particles in micro- and nano-size range) to deliver a stable product for market with a shelf…

Statistical Assessments of Bioassay Validation Acceptance Criteria

Analytical linearity as well as assessments of precision and accuracy determine the range for a bioassay (1). USP <1033> recommends comparing confidence intervals (CIs) against target validation acceptance criteria in a bioassay validation exercise, but there are no clear guidelines for determining the criteria (2). Here I address several aspects of a bioassay validation, namely • Linearity (coefficient of determination (R2), slope, and intercept parameters) • Accuracy (%relative bias, %RB) • Precision (percent coefficient of variation, %CV) CIs for the…

Large-Volume Wearable Injectors: A New Delivery Approach Could Change the Game

Biologic drugs are a driving force in the pharmaceutical industry. More than 2,700 were in pharmaceutical pipelines as of June 2017 to treat cancers (836), rare diseases (566), neurologic conditions (420), autoimmune disorders (311), and other ailments (567) — triple the number in 2013 overall (1). Biopharmaceuticals make up more than half of all drugs in development and are nudging out traditional small-molecule drugs rapidly while already bringing in billions of dollars in sales. The success of such drugs is…

eBook: Bioprocess and Analytical Laboratories — Proving the Power of Data in Drug Development

Analytics pervade the entire biopharmaceutical development process — from protein characterization through biomanufacturing process optimization to final-product formulation and clinical testing. Every technical article in BPI requires data to back up the statements made, whether the topic is upstream/production, downstream processing, product development, or otherwise focused. And never mind publishing: Even more detailed documentation is required for regulatory submissions. If a company can’t back up the choices made and results obtained in development, manufacturing, and testing of its biopharmaceutical product,…

Ask the Expert: Developing a Whole-Genome CRISPR Screen to Improve Chinese Hamster Ovary Cells for Biomanufacturing

Great strides have been made in increasing the yield of biotherapeutic proteins mainly through process improvements with a focus on media and feed strategies. But aside from single-gene knockouts to allow for metabolic selection systems, the Chinese hamster ovary (CHO) host cell line remains largely unchanged from what was used 30 years ago. In a webinar on 21 March 2018, Jamie Freeman (product manager at Horizon Discovery) focused on this as a bioproduction application of clustered regularly interspaced short palindromic…

eBook: The Future of Monoclonal Antibody Manufacturing — Incremental Improvement or Industrial Revolution?

Monoclonal antibody manufacturing is at a crossroads. Biomanufacturers could continue exploring new technologies and fine-tuning proven systems such as mammalian cell expression systems in stirred-tank bioreactor fed-batch cultures. But some experts say an opportunity is arising to turn the industry on its head by taking lessons from other branches of bioprocessing, such as the industrial enzyme sector. Drug makers are criticized often these days for the high prices of their products. The lay media, governments, payers, and patients themselves all…

eBook: Development and Application of a Simple and One-Point Multiparameter Technique — Monitoring Commercial-Scale Chromatography Process Performance

In commercial-scale biopharmaceutical manufacturing, downstream chromatography steps are still a bottleneck and contribute to significant operational costs (1, 2). Some of those costs are inherent (e.g., resins, large buffer quantities, and cleaning) whereas others are avoidable (e.g., product loss due to rejected lots or deviations that result in production downtime). Maintaining efficient and robust chromatography process performance is therefore critical for minimizing operating costs. To do so, we introduce a simple and one-point multiparameter technique (SOP-MPT) for monitoring chromatographic process…

eBook: The Commercial Expression Systems Market — What Has Changed in the Past Decade

A decade ago, BioPlan Associates prepared the findings of its 2008 directory of expression system technologies that were being promoted or considered likely to be suitable for commercial licensing for biopharmaceutical manufacturing (1). Due in part to the relatively slow advances in this critical area of bioprocessing, this study remains perhaps the only directory of biopharmaceutical-relevant expression systems available for licensing. Here I discuss aspects of related bioprocessing technologies that have and have not changed in the past decade. Expression…

eBook: Production Cell-Line Development and Control of Product Consistency During Cultivation — Myths, Risks, and Best Practices

Health authorities are requesting substantial details from sponsors regarding practices used to generate production cell lines for recombinant DNA–(rDNA) derived biopharmaceuticals. Authorities also are asking for information about the clonality of master cell banks (MCBs) and control strategies to minimize genetic heterogeneity. Such requests are prompted by recent reports indicating “nonclonality” for certain production cell lines. To address these and related issues, the CASSS CMC Strategy Forum on “Production Cell Line Development and Control of Product Consistency During Cell Cultivation:…

The Multi-Mode Mimetic Ligand Library: A New Tool for Rapid Development of Downstream Processes

Recent developments in downstream processing of biomolecules — including continuous processing, bind–elute affinity capture, and flow-through polishing steps — have increased the need for greater selectivity from chromatography adsorbents. This has led to the introduction of a new generation of adsorbents: so-called “mixed-mode” or multimodal ligands. They provide greater selectivity and tolerance to process buffer composition than either ionexchange chromatography (IEC) or hydrophobic-interaction chromatography (HIC) alone can provide. Learn more in this Special Report from Steve Burton, Chief Executive Officer…