[CAR-T cells gene therapy medicines: Regulatory status and pharmaceutical circuits in Europe and France]. / Les médicaments de thérapie génique CAR-T cells : statuts réglementaires et circuits pharmaceutiques en Europe et en France.

CAR-T cells belong to a new class of biological medicines, referred to as Advanced Therapy Medicinal Products (ATMPs). Despite the cellular component, according to the regulatory definition, CAR-T cells are gene therapy medicines, a sub-category of ATMPs, since their therapeutic effect is the result of their genetic modification. The specificity and the complexity of these innovative drugs have required a complete reorganization of the hospital and pharmaceutical circuits, from the cell collection to the drug administration to the patient. Indeed, increased interaction and collaboration between different healthcare professionals is essential in order to guarantee the quality and safety of these innovative medicines.

Centralised versus decentralised manufacturing and the delivery of healthcare products: A United Kingdom exemplar.

BACKGROUND: The cell and gene therapy (CGT) field is at a critical juncture. Clinical successes have underpinned the requirement for developing manufacturing capacity suited to patient-specific therapies that can satisfy the eventual demand post-launch. Decentralised or 'redistributed' manufacturing divides manufacturing capacity across geographic regions, promising local, responsive manufacturing, customised to the end user, and is an attractive solution to overcome challenges facing the CGT manufacturing chain. METHODS: A study was undertaken building on previous, so far unpublished, semi-structured interviews with key opinion leaders in advanced therapy research, manufacturing and clinical practice. The qualitative findings were applied to construct a cost of goods model that permitted the cost impact of regional siting to be combined with variable and fixed costs of manufacture of a mesenchymal stromal cell product. RESULTS: Using the United Kingdom as an exemplar, cost disparities between regions were examined. Per patient dose costs of ~£1,800 per 75,000,000 cells were observed. Financial savings from situating the facility outside of London allow 25-41 additional staff or 24-35 extra manufacturing vessels to be employed. Decentralised quality control to mitigate site-to-site variation was examined. Partial decentralisation of quality control was observed to be financially possible and an attractive option for facilitating release 'at risk'. DISCUSSION: There are important challenges that obstruct the easy adoption of decentralised manufacturing that have the potential to undermine the market success of otherwise promising products. By using the United Kingdom as an exemplar, the modelled data provide a framework to inform similar regional policy considerations across other global territories.

Concise Review: The U.S. Food and Drug Administration and Regenerative Medicine.

UNLABELLED: Regenerative medicine (RM) is a popular term for a field of scientific and medical research. There is not one universally accepted definition of RM, but it is generally taken to mean the translation of multidisciplinary biology and engineering science into therapeutic approaches to regenerate, replace, or repair tissues and organs. RM products have the potential to provide treatments for a number of unmet needs but have substantial scientific and regulatory challenges that need to be addressed for this potential to be fully realized. FDA has established formal regulatory definitions for biologics, medical devices, and combination products, as well as human cells and tissues. Regenerative medicine products regulated by FDA are classified on the basis of these definitions, and the classification forms the basis for determining the regulatory requirements to each specific product. FDA regulations are generally written to allow the agency flexibility to accommodate new scientific questions raised by novel and evolving technologies. FDA efforts to facilitate product development in this novel and promising area include working with individual sponsors, interacting with the scientific and industry communities, participating in standards development, and developing policy and guidance. SIGNIFICANCE: Regenerative medicine is generally taken to mean the translation of multidisciplinary biology and engineering science into therapeutic approaches to regenerate, replace, or repair tissues and organs. This article provides an overview of the efforts of the U.S. Food and Drug Administration (FDA) to facilitate product development in the field commonly known was regenerative medicine. It provides an introduction to the processes by which FDA works with individual sponsors, interacts with the scientific and industry communities, participates in standards development, and develops formal FDA policy and guidance.