Analytical

Moving DSC Downstream: Exploiting Differential Scanning Calorimetry As a Process Development Tool

The primary goal of biopharmaceutical process development is to determine what steps and conditions will maximize and optimize yields of purified product in the most reproducible, robust, and cost-efficient way. Characterized by high batch-to-batch comparability minimizing economic losses associated with batch failures, success relies on a thorough understanding of a given biological drug. Determining how its activity and stability are affected by processing and how to mitigate and control associated risks is advocated by a quality by design (QbD) approach.…

Development Approaches to Adenoassociated Virus Production

After many years of development, gene therapy is beginning to deliver on its promises in the clinic, in some cases with spectacular outputs. Those clinical successes also have led to an influx of funding and engagement from large pharmaceutical companies, thereby bringing the required financial support and expertise for late-stage clinical developments and product commercialization. Although many initial studies were confined to small patient groups and focused on a range of rare monogenetic diseases, new approaches to gene editing have…

Controlling Glycosylation in Fusion Protein Manufacturing to Generate Potent Biobetters

The pipelines of pharmaceutical companies are full of biological drugs. Many of them are innovative therapeutic proteins, but a growing number represent biosimilars and biobetters (Figure 1) (1). Biobetters typically are defined as being “based on innovative biologics but with improved properties†(2). Their development benefits from known therapeutic approaches and mechanisms of action resulting in low risk, fast paths to the clinic and thus lower costs. Superiority is achieved through extended half-life (t1/2), improved efficacy, and reduced immunogenicity or…

Process Development of Microbial Plasmid DNA: Fast-Tracking with Modular Single-Use Minibioreactors

There has been a rapid rise in the number of positive clinical outputs from clinical studies based on gene and cell therapies. This is in addition to the licensing of products such as GlaxoSmithKline’s Strimvelis ex-vivo stem-cell therapy for treatment of severe combined immunodeficiency caused by adenosine deaminase deficiency (ADA-SCID) in 2016 (1) — has led to an increase in demand for therapeutic vector manufacturing capabilities. Viral vectors are being used for an increasing range of conditions, including monogenetic conditions.…

Regulation, Analytical, and Process Issues with Leachables: Toward Harmonization for Latin America with Europe and North America

The pharmaceutical industry follows strict regulations regarding impurities, including process-related leachates. Plastic manufacturers use hydrophobic, nontoxic additives for manufacturing containers for use in the pharmaceutical and food industries. However, some issues about dealing with such impurities are not yet resolved. In developing countries, regulators are working on guidelines to help local companies ensure characterization of impurities. In this exclusive editorial eBook, authors from Mexico describe some issues related to plastic leachables in the context of ongoing efforts to harmonize regulations…

BPI Lab: Essential Technologies for Development, Characterization, and QA/QC

There’s a secret hiding in plain sight: many analytical methods and technologies initially designed for pre-clinical development have equally important applications in commercial development. BioProcess International and BioTechniques, sister publications and leading journals that combined, cover the entire biopharmaceutical process, from discovery to development and manufacturing, partnered to create this special eBook, highlighting and detailing fourteen analytical technologies that provide laboratory technicians and scientists with vital information to help project managers and engineers make educated decisions that ultimately affect every…

Opportunities and Challenges in Biosimilar Development

A biosimilar biotherapeutic product is similar (but not identical) in terms of quality, safety, and efficacy to an already licensed reference product. Unlike generic small molecules, it is difficult to standardize such inherently complex products based on complicated manufacturing processes. Table 1 describes the main differences between biosimilar and generic drug molecules. The global biosimilar market is growing rapidly as patents on blockbuster biologic drugs expire (Table 2) and other healthcare sectors focus on reduction of costs. Biologics are among…

Implementing Quality By Design in Analytical Development: A Case Study on the Development of an Anion-Exchange HPLC Method

The concept of quality by design (QbD) initially was outlined in ICH Q8 guidance for drug-product development and later in Q11 for drug-substance development (1, 2). Since then, the QbD concept was further expanded to the development of analytical methods. FDA issued a 2015 guidance on analytical procedures and method validation for drugs and biologics (3). Although the agency did not explicitly state the requirement for implementation of QbD in analytical method development, the concept is embedded in its section…

Special Report: Effect of Insulin on Cell Growth and Virus Production

Recombinant insulin is a key component in serum-free growth media for mammalian cells. It is used for the manufacturing of monoclonal antibodies, virus vaccines, gene therapy products and many other biological drug products approved by regulatory bodies worldwide, including FDA and EMA. Canada’s National Research Council (NRC) helps companies develop and commercialize new health technologies. Recently it partnered with Novo Nordisk Pharmatech to determine the effect of Insulin on cell growth and virus production. The results are detailed in this…

Advancements in Characterizing Therapeutic Protein Higher-Order Structure

Electrospray-ionization mass spectrometry (ESI-MS) is a well-established tool for biotherapeutic analysis. It draws intact proteins or peptide ions into the vacuum of a mass spectrometer, where the ion mass is measured. Electrospray ion-mobility mass spectrometry (ESI-IMS) introduces ions into a low-pressure gas, where the effects of aerodynamic drag reveal their shape. This technique is just emerging as a valuable tool for characterizing intact proteins, even though for a decade it’s been the basis of a commercially available medical diagnostic test…