Abstract
Biological treatments are one of the medical breakthroughs in the twenty-first century. The initial enthusiasm pushed the field towards indiscriminatory use of cell therapy regardless of the pathophysiological particularities of underlying conditions. In the reparative and regenerative cardiovascular field, the results of the over two decades of research in cell-based therapies, although promising still could not be translated into clinical scenario. Now, when we identified possible deficiencies and try to rebuild its foundations rigorously on scientific evidence, development of potency assays for the potential therapeutic product is one of the steps which will bring our goal of clinical translation closer. Although, highly challenging, the potency tests for cell products are considered as a priority by the regulatory agencies. In this paper we describe the main characteristics and challenges for a cell therapy potency test focusing on the cardiovascular field. Moreover, we discuss different steps and types of assays that should be taken into consideration for an eventual potency test development by tying together two fundamental concepts: target disease and expected mechanism of action.Graphical Development of potency assays for cell-based products consists in understanding the pathophysiology of the disease, identifying potential mechanisms of action (MoA) to counteract it and finding the most suitable cell-based product that exhibits these MoA. When applied, the potency assay needs to correlate bioactivity of the product, via a measurement related to the MoA, with treatment efficacy. However, in the cardiovascular field, the process faces several challenges and high requirements.
Highlights
Medical landscape is being dramatically changed by the introduction of cell-based therapies [1]
We review the need and the requirements in developing potency assays for cell-based therapeutics in the cardiovascular field focusing on the recommendations by the ICH and those adopted by the U.S Food and Drug Administration (FDA) and the European Medicines Agency (EMA)
Exogenous or extrinsic replacement generally refers to implantation of cardiomyocytes differentiated in vitro from embryonic stem cells or induced pluripotent stem cells
Summary
Medical landscape is being dramatically changed by the introduction of cell-based therapies [1]. Validated potency assays are necessary before product release to support consistency in the strength of all released products Both the EMA [8] and the FDA [6] have pointed the need for measuring biological activity via a validated potency assay for qualification, validation and control of cell-based therapies [9]. To develop an adequate potency assay and successfully quantify the potential efficacy of a cell-based product, it is essential to identify the most relevant MoA of the therapeutic product and at least one of the disease-related significant pathophysiological pathways expected to be counteract by the former (Fig. 2). Cardiomyogenesis resulting from cardiomyocyte division can be confirmed ex vivo by using classical mitotic markers, such
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