Mitigating Deficiencies in Evidence during Regulatory Assessments of Advanced Therapies: A Comparative Study with Other Biologicals.

Advanced therapy medicinal products (ATMPs) comprising cell therapy, gene therapy, and tissue-engineered products, offer a multitude of novel therapeutic approaches to a wide range of severe and debilitating diseases. To date, several advanced therapies have received marketing authorization for a variety of indications. However, some products showed disappointing market performance, leading to their withdrawal.

Do human leukocyte antigen-typed cellular therapeutics based on induced pluripotent stem cells make commercial sense?

The promise of off-the-shelf cellular therapeutics (CTPs) based on allogeneic induced pluripotent stem cells (iPSCs) may be hindered by alloimmunity, leading many to suggest that such products could be based on a series of human leukocyte antigen (HLA)-typed iPSC lines allowing at least some degree of tissue matching. While based on sound scientific principles, this suggestion presupposes that other immune responses will not be limiting. Technically this approach would present a number of major challenges, the first being the development of a suitably reliable reprogramming method amenable to validation that results in highly consistent iPSC lines.

Reference materials for cellular therapeutics.

The development of cellular therapeutics (CTP) takes place over many years, and, where successful, the developer will anticipate the product to be in clinical use for decades. Successful demonstration of manufacturing and quality consistency is dependent on the use of complex analytical methods; thus, the risk of process and method drift over time is high. The use of reference materials (RM) is an established scientific principle and as such also a regulatory requirement.

Potency assay development for cellular therapy products: an ISCT review of the requirements and experiences in the industry.

The evaluation of potency plays a key role in defining the quality of cellular therapy products (CTPs). Potency can be defined as a quantitative measure of relevant biologic function based on the attributes that are linked to relevant biologic properties. To achieve an adequate assessment of CTP potency, appropriate in vitro or in vivo laboratory assays and properly controlled clinical data need to be created.

Regulating interface science healthcare products: myths and uncertainties.

Whenever new technology emerges it brings with it concerns and uncertainties about whether or how it will need to be regulated, particularly when it is applied to human healthcare. Drawing on the recent history in the European Union (EU) of the regulation of cell-based medicinal products, and in particular tissue-engineered products, this paper explores the myths that persist around their regulation and speculates on whether the existing regulatory landscape in the EU is flexible enough to incorporate nanotechnology and other new technologies into healthcare products. By untangling these myths a number of clear conclusions are revealed that, when considered in the context of risk-benefit, make it clear that what hinders the uptake of new technology is not regulatory process but basic science.

Development and functional capacity of transplanted rat metanephroi.

Background: Transplantation of embryonic kidneys (metanephroi) offers a potential solution to the problem of kidney donor shortage. The aim of this study was to characterise the haemodynamic capacity of transplanted rat metanephroi and to determine the number and maturity of the tubules.

Methods: Metanephroi from E15 Lewis rat embryos were transplanted adjacent to the abdominal aorta of uninephrectomised adult female syngeneic Lewis rats.

Increasing renal mass improves survival in anephric rats following metanephros transplantation.

Renal failure and end-stage renal disease are prevalent diseases associated with high levels of morbidity and mortality, the preferred treatment for which is kidney transplantation. However, the gulf between supply and demand for kidneys remains high and is growing every year. A potential alternative to the transplantation of mature adult kidneys is the transplantation of the developing renal primordium, the metanephros.