Cell/Gene Therapies

Moving Cell Purification Methods from Bench to Bedside

The technological innovations and improvements to cell purification and other cellular analysis-based processes have dramatically increased sample throughput rates resulting in an improved ability to treat cancer, autoimmune diseases, and a range of applications in regenerative medicine.

Implementing Custom Single-Use Solutions for Cell Therapy Production

Cellular therapy continues to expand and gain momentum, as evidenced by the growing number of companies and clinical trials in the field each year. Early potential therapies were developed solely by investigators without communication or input from manufacturing experts. That communication gap led to numerous setbacks as potential products were developed without roadmaps for feasible manufacturing scale-up (or scale-out). Contributions from members of the cell therapy community over the past few years have significantly improved the situation in the form…

Scaling Up Stem Cells

    Cell-based products are becoming increasingly important as potential biotherapies. Cell therapy is predicted to have a huge impact on the healthcare sector over the coming decades. Stem cells, in particular, are investigated as potential treatments for a diverse range of applications (such as heart disease and metabolic and inflammatory disorders) in which they might be used to restore lost biological functions. The cell therapy industry is starting to mature. Several emerging companies are now supporting late-stage clinical trials,…

Standards Can Help Bring Cell Therapy Products to Market

Companies trying to market cell therapy products face a number of challenges in communicating highly technical knowledge, understanding the nature and complexity of their products, and trying to understand the global regulatory environment within which they must operate. The role standards development organizations (SDOs) play is key to overcoming some of those challenges through a standardization process. The British Standards Institution (BSI) sits at the forefront, developing a number of documents that will increase the chances of cell therapies for…

Improve Process Uniformity and Cell Viability in Cryopreservation

Cell therapies and related cell-based technologies constitute an emerging, fast-growing market with a total value expected to exceed US$100 billion by 2019 (1). Cell therapy is defined as the process of introducing cells to a patient’s tissue for disease treatment. These therapies generally require cryopreservation to maintain sufficient product quality and shelf life. As a common practice, cell therapy manufacturers use controlled-rate freezers to optimize cooling profiles. The goal is to preserve final products in cryopreservation media with the highest…

“Hard Cell”: Potency Testing for Cellular Therapy Products

Potency testing is defined in 21 CFR Part 600.3(s) as “the specific ability or capacity of the product, as indicated by appropriate laboratory tests or by adequately controlled clinical data obtained through the administration of the product in the manner intended, to effect a given result” (1). Potency measurement is especially important for complex products such as cellular therapies (CTs). It is considered an essential aspect of the quality-control system for a CT drug substance and drug product. It is…

Quality Control During Manufacture of a Stem Cell Therapeutic

Development and manufacturing of a therapeutic stem cell product requires extensive quality control (QC) to ensure the identity, quality, and safety of the cells. Here, we describe our QC pipeline to optimize the manufacturing of our MultiStem adherent stem cell product, which is in clinical trial testing for stroke, acute myocardial infarction, inflammatory bowel disease, graft versus host disease, and solid organ transplantation. Screening for growth, marker expression, immunosuppression, and multipotent differentiation — in combination with “-omics” screening for gene…