2017-2023: state of the art of gene therapies in rare diseases in Europe: the dynamics of clinical R&D, new approved treatments and expected therapies in the pipelines

Abstract

Aim: Gene therapies have been tested over the past three decades, and after a first market authorization in 2017, the field is starting to deliver. The study aims to analyze the current development dynamics of gene therapies for rare diseases using the GENOTRIAL database®, which gathers information on gene therapy clinical trials and studies conducted between 2017 and 2023 in Europe. Methods: The study involved extracting and filtering clinical trial data from the EudraCT database. Trials with the keyword "Gene Therapy" were selected and filtered using the "Rare disease" filter. Manual verification was conducted to ensure that the selected trial only concerned gene therapy treatments authorized in Europe for rare diseases in phases I to III. A total of 300 European country-related clinical investigations representing a total of 93 European-specific clinical studies were included in the GENOTRIAL database. The trials were classified by development phases, temporal status, sponsors and investigating countries, rare diseases with their related therapeutic area, and approval regulatory information of the identified gene therapies. Results: Analysis reveals that rare diseases present a promising area for gene therapy development. On average, eight rare disease gene therapy trials are launched each year in Europe. The main sponsors of European clinical trials of gene therapies for rare diseases are from US, followed by the United Kingdom and France. The United Kingdom conducts the highest number of investigations in Europe, followed by France, Italy, Spain, and Germany. Nutritional and metabolic diseases are the most represented therapeutic area, followed by rare oncology, blood and lymphatic diseases, and ocular diseases. The analysis identifies 73 gene therapy medical products covering 35 diseases at various stages of development, with 12 new therapies approved in recent years for 8 rare diseases, while 15 other gene therapies are at an advanced stage of phase III in their development plan for 11 other rare diseases. Conclusion: Gene therapy has shown significant progress and potential in treating rare genetic diseases. Europe has emerged as a promising region for gene therapy clinical trials in rare diseases. Efforts are now required to catch up with the USA and UK regarding the number of clinical trials sponsored by European groups.