Manufacturing

eBook: Cancer Vaccines ⁠— Innovation Fuels an Immunotherapy Renaissance

Despite early successes a decade ago, cancer vaccines designed to deliver peptides or proteins — or nucleic acids encoding those antigens — generally have fizzled out since then. As a result, cancer vaccine development and the field of immunotherapy lost some traction overall. But as freelance contributor Jim Kling describes in this eBook, new innovations in product design, testing, and manufacturing are fueling a renaissance in cancer vaccine development. From checkpoint inhibitors to neoantigens, immune regulators, and beyond, companies are…

eBook: Formulation, Fill, Finish ⁠— Biopharmaceutical Drug Products for a Modern Age

Biopharmaceutical drugs are increasing in sophistication, requiring technological advancements to solve related challenges. The contributors to this BPI eBook highlight drug-product formulation concerns and collaborative efforts toward solving the fill–finish conundrum. First, the BioPhorum’s Scott Ewan describes a holistic approach to container–closure integrity and the organization’s work toward developing and expanding upon that approach. Ewan explores how advancing analytical technologies, risk management, and quality by design (QbD) are changing the strategies related to container–closure integrity, which remains a significant aspect…

Translating Inhaled and Nasal Technologies for the Delivery of Biologics

This webcast features: Mark Parry, Technical Director, Intertek Inhaled and nasal delivery platforms have specific applications outside of their traditional uses for asthma/chronic obstructive pulmonary disease (COPD) and seasonal rhinitis/sinusitis: They can offer real advantages for the delivery of therapeutic biologics. During this short presentation, Intertek’s Technical Director, Mark Parry, will provide an overview of currently available technologies and successfully marketed products, with a look at the development challenges that might be encountered — and the solutions that are available…

The Green Imperative: Part One — Life-Cycle Assessment and Sustainability for Single-Use Technologies in the Biopharmaceutical Industry

Much has changed since large-scale single-use biomanufacturing equipment was introduced some 15 years ago. Since then, these materials have become accepted and established in production and downstream bioprocessing. Concerns about the environmental impact of single-use (SU) biomanufacturing equipment have become more prevalent as our environmental awareness has increased and related concerns have become more urgent (1). For example, many recommendations and even laws have emerged regarding plastic convenience packaging and products (2, 3). People have become more sophisticated in appreciating…

Applications of Disposable Technologies for Upstream Bioprocessing

Over the past 10 years, a number of developments in disposable (limited use) and single-use technologies (SUTs) have been made for different bioprocess operations. Until recent years, much of the industry’s process equipment was sterilized using thermal methods such as autoclaving. Most equipment was reusable and required cleaning and sterilization before use. Such processes required validation and expensive and time-consuming resources. Production facilities relied on hard-piped, inflexible equipment such as large stainless-steel bioreactors and holding tanks. However, advanced SUTs now…

Viral-Vectored Gene Therapies: Harnessing Their Potential Through Scalable, Reproducible Manufacturing Processes

We might not associate the jazz queen Ella Fitzgerald with 21st-century gene-based therapies, but the First Lady of Song was on to something back in 1939 when she sang “’T’Ain’t What You Do (It’s the Way That You Do It).” Although demonstrating the safety and efficacy of gene-based therapies in rigorous clinical trials is essential for gaining product approval from regulators, doing the bare minimum is insufficient. The way that such products are produced also matters. Manufacturing processes and protocols…

Process Intensification of Viral-Based Vaccines: Where Are the Bottlenecks?

In the current coronavirus pandemic, the ability to scale up and produce viral-based vaccines (attenuated viral vaccines, inactivated viral vaccines, and viral vector vaccines) quickly and in large quantities has never before been more relevant. For viral-based vaccines that can be produced by adherent or suspension cell culture, process intensification — in which cell culture, for example, is optimized to produce higher viral titers using the same process equipment — offers a strategy to produce larger numbers of doses in…

Managing Risk in Single-Use Systems Design and Implementation: A Shared Responsibility

Managing risk in single-use systems design and implementation is a shared responsibility. The ultimate responsibility for drug processes and products will always remain with manufacturers. However, implementation of single-use systems can shift responsibilities to suppliers within key areas, including design and sterilization, which must be clearly controlled and validated. This Special Report discusses how suppliers and manufacturers when working together can mitigate the risk of applying single-use systems in biopharmaceutical production from design through validation to point-of-use testing and operator…

Challenges and Benefits of Networking Process Control Manufacturing Systems: Integration to Business Systems in Industry 4.0

Networking of manufacturing process control systems can lead to benefits of efficiency, increased productivity, and better facility use, leading to lower cost of goods (CoG). Furthermore, integration of manufacturing systems with manufacturing execution systems (MESs) upward to an enterprise resource planning (ERP) business system improves overall organizational efficiency. An ERP system enables optimization of intrafacility manufacturing resources. For multiple manufacturing facilities, it facilitates optimization across a company’s manufacturing network. Enabling Technologies and Systems At the enterprise resource planning level (Figure…

Designing the Right Strategy for Digital Transformation: How a Pragmatic Approach to Digital Transformation Can Help Biomanufacturers Adapt to a Challenging Future

Although the biopharmaceutical industry has enjoyed explosive growth over the past three decades, it still faces an assortment of challenges. Those include growing portfolio complexities, increased demand volatility, stringent regulatory requirements, increased pricing pressures, and growing technological complexities, all leading to severe pressure on profit margins. To overcome such pressures, biopharmaceutical operations need to become more reliable and agile, and they must realize efficiency gains in both manufacturing and supply chains. Digital transformation offers strong value opportunities, including a potential…