The history of the biopharmaceutical industry is one of continual invention and reinvention, of business models that have adapted to weather uncertain product futures and shifting economic fortunes. Some of us followed the up-and-down (and often financially painful) progress of monoclonal antibodies toward their eventual commercial success — a wealth of experience to draw from as other classes of products make their way from laboratories and onto the market. The vast majority of regenerative medicines are still produced at laboratory…
Manufacturing
Therapies of Tomorrow Require More Than Factories from the Past
Live cells are being incorporated as active agents and delivery vehicles for a broad range of emerging therapeutic strategies. Successful commercialization of a cell therapy requires more than proving its safety and efficacy to regulators. Ultimately a therapy must be commercially viable, allowing enough patients to be treated with an adequate financial margin to justify investment in it as a product. “Whether the cells used are universal (allogeneic) or patient-specific (autologous), it is unlikely to be wholly one or the…
Successful Commercialization Through Industry Collaboration
Nearly a year ago, the International Society for Cell Therapies (ISCT) decided to integrate industry into its organization to build a stronger platform for commercializing therapies. Robert Deans, vice president of regenerative medicine at Athersys, was invited to serve as a leader of ISCT’s Industry Task Force, which aimed to identify industry roles in its organization. Within two months, the task force invited industry members and chartered a white paper (1) that described how ISCT should go forward.…
Opportunities in Regenerative Medicine
Capitol Hill fly-in days (see the last page of this issue) … A focus of Google Ventures (www.google.com/ventures) … A favored new investment arena for GE’s CEO Jeffrey Immelt, the recently named head of President Obama’s economic recovery advisory panel, and Life Technologies’ Greg Lucier … Hardly a day skipped without a major news publication covering some exciting aspect of the science … The provocative cover of Wired magazine’s (www.wired.com/magazine) November 2010 issue … It all sounds like the stuff…
Stem-Cell–Based Therapies
A recent review of therapeutics in clinical development revealed 68 stem cell-based approaches (1). The majority of those leverage a patient’s own hematopoietic stem cells; others are exploring use of mesenchymal, neural, or embryonic stem cells. Here I highlight new therapeutic applications of stem cells and explore advances in the areas of induced pluripotent stem cells (iPS cells) and process-scale production of stem cells. Both should create new opportunities for stem cell-based therapies. Types of Stem Cells Hematopoietic stem cell…
Technologies on the Cutting Edge
On the brink of bringing exciting new therapies to commercialization, cell therapy developers are taking notice of how other companies are addressing processing and technical challenges. Here, leaders from Dendreon, Advanced BioHealing, and Pluristem describe their current cell therapy programs. And two organizations —the Alliance for Regenerative Medicine (ARM) and McLaughlin–Rotman Center for Global Health —provide details on the promises of regenerative medicine. Cellular Immunotherapy Dendreon’s Provenge (sipuleucel-T) cell therapy induces an immune response to aid…
Cell Therapy Bioprocessing
The past 15 years have seen approval and commercialization of the first cell-based therapeutics, including cartilage repair products; tissue-engineered skin; and the first personalized, cellular immunotherapy for cancer. Those successes are outnumbered, however, by all too common product failures. Notable failures can be attributed to commercial concerns such as high cost of goods (CoGs) and technical hurdles such as inadequate characterization, high process variability, and loss of product efficacy when manufacturing is scaled up (1).…
Meeting the Challenges in Manufacturing Autologous Cellular Therapies
Personalized medicine is a promising new approach to disease treatment. The ultimate in personalized medicine is a cellular therapy manufactured specifically for an individual patient using his or her own cells. But this autologous approach to generating immunotherapies has unique manufacturing challenges. Each patient receives an individual product batch, which needs to be manufactured, tested, and released. So thousands to tens of thousands of batches could be made for each indication every year. Given the personalized nature of these therapies,…
Development of an In-House, Process-Specific ELISA for Detecting HCP in a Therapeutic Antibody, Part 1
After production and purification of biopharmaceuticals generated by cell culture expression systems, endogenous cell line proteins — commonly referred to as host-cell proteins (HCPs) — sometimes contaminate finished products. HCPs can elicit an immune response following administration of those drugs to patients (1), and cause potentially deleterious side effects. It is therefore imperative to minimize HCP contamination in finished biologics. Regulatory health authorities require monitoring of HCP contamination. They expect validation of each purification process to demonstrate its…
Industry Roundtable
With one eye on commercialization and the other on monitoring every-day challenges, cell therapy manufacturers are asking critical questions about process efficiency, ensuring quality, and satisfying regulatory demands. In this “virtual†roundtable discussion (participants were asked questions separately), cell therapy industry representatives answer key questions in hopes of broadening understanding about this new class of biopharmaceuticals. Participants in this roundtable are Timothy Fong, PhD (director cell therapy, Becton Dickinson Biosciences), Annemarie Moseley, PhD, MD (CEO, Repair Technologies), Firman…