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Cell Therapy Scaling: Beyond the Biology

Few other areas of medical research have been the source of as much promise (and hype) as cell therapies. Therapies that use engineered or repurposed versions of our own cells have inspired researchers and media alike. However, the pace at which effective therapies have made it out of laboratories and into clinical practice has not met the world’s high expectations. Although the biology has continued to press onward, the gap between R&D and commercialization remains substantial. In 1957, the first…

Manufacturing Human Induced-Pluripotent Stem Cells for Clinical Application

by Behnam Ahmadian Baghbaderani, Mahendra Rao and Thomas Fellner

The reprogramming of human somatic cells into induced pluripotent stem cells (iPSCs) offers tremendous potential for cell therapy, basic research, disease modeling, and drug development. Human iPSCs can be generated in culture, expanded, and then used to manufacture clinical-grade cells of almost any adult cell type. Given their great capacity for self-renewal, they are attractive as input materials for current good manufacturing practice (CGMP) operations. For human iPSCs to fulfill their therapeutic potential, however, it is necessary to develop a…

Cost-Effective Process Development for Plasmid DNA Manufacture: Evaluation of Single-Use Technologies to Support Escherichia coli Culture

by Adriana G. Lopes, Tania Selas Castineinas, A. G. Hitchcock and Daniel C. Smith

DNA-based gene therapy products have been in clinical development since the 1990s. But over the past 24 months, the overall demand and therapeutic applications for plasmid DNA (pDNA) have rapidly grown and expanded. Currently, pDNA can be used directly as a therapeutic agent (e.g., in gene therapy or generation of vaccine antigens) and indirectly for a range of applications. Those include its use as a critical starting material for transient transfection to produce both viral-vector constructs (e.g., lentivirus or adenoassociated…

Planning for Commercial Scale of Cell Therapy and Regenerative Medicine Products, Part 2: Clinical Efficacy, Reimbursement, and Needle-to-Needle Logistics

by Richard Grant, Mark Curtis and Meredith Brown

Cell therapy is an emerging pillar in healthcare with the potential to provide curative solutions to a wide range of indications. The biological complexities through which cell technologies exert their clinical impact (especially those used in immunotherapies for cancer) provide opportunities for novel modes of immune regulation, cell targeting, and payload delivery. Cells also can serve as vehicles for genetic content, which the gene therapy industry is now investigating. Since early 2004, Invetech has worked with organizations dedicated to cell…

Mapping Success for Commercial Cell Therapy Manufacturing

by Bob Preti, Ann M. Daus, Brian Hampson and Cenk Sumen

Commercializing cell therapies can be much more challenging than commercializing traditional pharmaceuticals and biologics. Cell-based drug products are significantly more complex than protein or small-molecule drug products. Their mechanisms of action and product attributes are also more complex. Cell therapy product attributes rely heavily on the associated manufacturing processes. Process changes can influence products in ways that may not be discernible until their effects on efficacy effects become evident. Product characterization is critical, but cell therapy products are living organisms…

The Cell Therapy Supply Chain: Logistical Considerations for Autologous Immunotherapies

by Dan O'Donnell

Among the basics of building a successful logistics strategy for the management of cell-based material, some better-known and important factors to consider include selecting the right dry-shipping unit, qualifying that container for a particular payload and shipping configuration, choosing an appropriate data logger, creating a chain of custody, evaluating a transit carrier, and anticipating potential problems inherent in shipping at cryogenic temperatures (1). Here, I’d like to go beyond those basics to address some lesser-known considerations. These factors may be…

Comprehensive Hands-On Training for Biopharmaceutical Manufacturing: BTEC’s Program to Deliver Training to FDA Investigators

by Gary Gilleskie and Patty Brown

Training and continuing education play a vital role in carrying out the US Food and Drug Administration’s mission to protect and promote the public health — not only for consumers, health professionals, and industry, but also for the agency’s own personnel. Since 2008, the Golden LEAF Biomanufacturing Training and Education Center (BTEC) at North Carolina State University has filled a niche in the agency’s internal training program and provided a series of courses to more than 100 FDA investigators. The…

Bioreactor Design for Adherent Cell Culture: The Bolt-On Bioreactor Project, Part 4 — Process Economics

by Marcos Simón

The Bolt-on Bioreactor (BoB) project is an independent initiative developing and commercializing a bioreactor for efficient, automated culture of adherent cells for biopharmaceutical applications (1). After conducting thorough research on available culture systems for adherent cells, the BoB team believes that a successful alternative to existing devices must solve four major challenges: volumetric productivity (2), process automation (3), containment and sterility (4), and process economics. This month concludes a four-part series addressing each of those challenges while describing design features…

Uniting Small-Molecule and Biologic Drug Perspectives: Analytical Characterization and Regulatory Considerations for Antibody–Drug Conjugates

by Lorna McLeod, Jon Harris, Fred Jacobson, Claudia Jochheim, Godfrey Amphlett and Kathleen Francissen

Cosponsored by CASSS (an international separation science society) and the US Food and Drug Administration (FDA), the January 2010 CMC Strategy Forum explored antibody–drug conjugates (ADCs), which are monoclonal antibodies (MAbs) coupled to cytotoxic agents. The ADC platform of products is being used more and more for clinical evaluation in oncology. More than a dozen companies are developing several types, including products conjugated with calicheamicin, auristatins, and maytansinoids. Such products use the specificity of a MAb to deliver a cytotoxic…

Lot Release and Characterization Testing of Live-Virus–Based Vaccines and Gene Therapy Products

by James Gombold, Keith Peden, Denise Gavin, Ziping Wei, Khandan Baradaran, Anthony Mire-Sluis and Mark Schenerman

The January 2005 CMC Strategy Forum was devoted to a discussion of live virus vaccines and viral vectors used for gene therapy. The purpose of the meeting was to determine whether consensus positions could be reached among the delegates regarding lot release, stability, characterization, and comparability testing. Part 1 of this two-part report on that meeting describes factors influencing the choices of lot-release assays for vaccines and gene-therapy products (1). Part 2 presents potency testing, characterization, and comparability studies, including…