Formulation

Highly Concentrated Protein Formulations: Finding Solutions for the Next Generation of Parenteral Biologics

Therapeutic protein formulation is no easy task. Biological drugs may be destined for prefilled syringes or glass vials, or they may be made into lyophilized powders that will be reconstituted in a clinical setting. No matter what their final state will be, recombinant proteins must remain potent and efficacious during storage. In recent years, pharmaceutical companies have turned increasingly to high-concentration protein formulations. Such drug formulations can offer patients the convenience of self-injection — instead of a trip to the…

Innovation in Biopharmaceutical Manufacture

The following is a report from a workshop on innovation in biopharmaceutical manufacturing held at the Annual bioProcessUK Conference in Bristol on 29 November 2012. The aim of the workshop was to access the experience of practitioners in the United Kingdom so as to understand better the challenges and opportunities for innovation in this sector. The workshop addressed the drivers that influence the implementation of process improvements and novel technologies in biopharmaceutical manufacture from the perspective of both manufacturers and…

Accounting for the Donnan Effect in Diafiltration Optimization for High-Concentration UFDF Applications

The biopharmaceutical industry is targeting high-concentration protein formulations to enable subcutaneous administrations. Such administration can provide better patient convenience than intravenous administration. One challenge associated with high-concentration formulations is increased electrostatic interaction between proteins and excipients. That is a result of increased protein-charge density at high protein concentrations. Such interactions can create an offset between excipient levels in final products and diafiltration buffers in ultrafiltration processes. The effect of such electrostatic interactions in a membrane process is known as the…

How to Hit a Moving Target

Although multiple factors can compromise the drug-like properties of biological molecules, we are still at a very early stage in learning how to assess them. This is despite — or perhaps more correctly, because of — the pharmaceutical industry’s accelerating drive to develop biological molecules as therapeutic agents. And I say “we” because this applies not only to the biopharmaceutical industry itself and the analytical instrument companies that serve it, but also those charged with regulating it. We are all…

Enabling Technologies

    We hear a great deal lately about the maturation of the biopharmaceutical industry — and much advancement over the past decade or so has been in business models, financing, and product pipelines. Meanwhile, regulators around the world have become more well versed in the subject matter and have adjusted their approaches to and expectations from the industry. However, the practical side of developing, characterizing, and manufacturing biotherapeutic products cannot be overlooked — nor its importance overstated. Many technological…

Spray-Dry Manufacture of Vaccine Formulations

Development of vaccines and immunotherapeutics has expanded rapidly due to technological advances in the fields of molecular biology and bioprocess engineering, as well as a smoothing of management and material logistics worldwide. Expression platforms and novel cell lines have enabled creation of increasingly complex vaccines. The advancement of vaccine formulation development is also capitalizing on new advances in manufacturing that use model-based methodologies gleaned from physiochemical principles, process analytical tools, and systematic approaches to problem solving. Herein we highlight recent…

Upstream Chemistry Analysis in Cell-Based Process Development

Cell line selection is important to any pharmaceutical company’s development pathway for biological compounds (1). In cell-line selection laboratories, many different, slightly variable cell lines are tested in parallel for desired characteristics. Candidate cell lines are chosen for further development on the basis of their performance in basic tests of critical quality attributes (CQAs). Historically, such cell lines were selected in large-volume containers because it was necessary to have sufficient volume in culture to allow repeated sampling without damaging the…

Drug Products for Biological Medicines

The California Separation Science Society (CASSS) held a Chemistry, Manufacturing, and Controls (CMC) Strategy Forum on drug products for biological medicines in July 2012 in Bethesda, MD. Topics included novel delivery devices, challenging formulations, and combination products. This CMC Strategy Forum aimed to promote an understanding of how best to increase the speed and effectiveness of drug product and device development for both large and small companies. Participants focused on areas that improve the likelihood for regulatory success, reduce risk,…

In Vitro Functional Testing Methods for Monoclonal Antibody Biosimilars

The pressure to contain rising healthcare costs — combined with the number of innovator biologic drugs coming off patent (30 licensed biological drugs by 2015) — offers huge opportunities for developers of biosimilar products. In 2011, the global market size of the biosimilars industry was around US$2.5 billion. Global demand for such products — and monoclonal antibody (MAb) biosimilars, specifically — is estimated to grow at 8–17% from 2012 to 2016 (1). The advent of biosimilars should bring more affordable…

Biosimilars, Oxidative Damage, and Unwanted Immunogenicity

Concerns about the economic viability of biosimilars center on their high development cost relative to small-molecule generics, along with (and partly because of) the difficulty in demonstrating bioequivalence for these complex molecules. Immunogenicity is a particular area of increasing vigilance at both the US Food and Drug Administration (FDA) and the European Medicines Agency (EMA) (1, 2). Unwanted immunogenicity is an underlying cause of multiple deleterious effects for all protein-based therapeutics — including loss of efficacy, altered pharmacokinetics, and reduced…