lunes, 9 de abril de 2018

Gene therapy in rare diseases: the benefits and challenges of developing a patient-centric registry for Strimvelis in ADA-SCID | Orphanet Journal of Rare Diseases | Full Text

Gene therapy in rare diseases: the benefits and challenges of developing a patient-centric registry for Strimvelis in ADA-SCID | Orphanet Journal of Rare Diseases | Full Text



Orphanet Journal of Rare Diseases

Gene therapy in rare diseases: the benefits and challenges of developing a patient-centric registry for Strimvelis in ADA-SCID

  • Heide Stirnadel-FarrantEmail author,
  • Mahesh Kudari,
  • Nadia Garman,
  • Jessica Imrie,
  • Bikramjit Chopra,
  • Stefania Giannelli,
  • Michela Gabaldo,
  • Ambra Corti,
  • Stefano Zancan,
  • Alessandro Aiuti,
  • Maria Pia Cicalese,
  • Rohit Batta,
  • Jonathan Appleby,
  • Mario Davinelli and
  • Pauline Ng
Orphanet Journal of Rare Diseases201813:49
Received: 26 October 2017
Accepted: 22 March 2018
Published: 6 April 2018

Abstract

Background

Strimvelis (autologous CD34+ cells transduced to express adenosine deaminase [ADA]) is the first ex vivo stem cell gene therapy approved by the European Medicines Agency (EMA), indicated as a single treatment for patients with ADA-severe combined immunodeficiency (ADA-SCID) who lack a suitable matched related bone marrow donor. Existing primary immunodeficiency registries are tailored to transplantation outcomes and do not capture the breadth of safety and efficacy endpoints required by the EMA for the long-term monitoring of gene therapies. Furthermore, for extended monitoring of Strimvelis, the young age of children treated, small patient numbers, and broad geographic distribution of patients all increase the risk of loss to follow-up before sufficient data have been collected. Establishing individual investigator sites would be impractical and uneconomical owing to the small number of patients from each location receiving Strimvelis.

Results

An observational registry has been established to monitor the safety and effectiveness of Strimvelis in up to 50 patients over a minimum of 15 years. To address the potential challenges highlighted above, data will be collected by a single investigator site at Ospedale San Raffaele (OSR), Milan, Italy, and entered into the registry via a central electronic platform. Patients/families and the patient’s local physician will also be able to submit healthcare information directly to the registry using a uniquely designed electronic platform. Data entry will be monitored by a Gene Therapy Registry Centre (funded by GlaxoSmithKline) who will ensure that necessary information is collected and flows between OSR, the patient/family and the patient’s local healthcare provider.

Conclusion

The Strimvelis registry sets a precedent for the safety monitoring of future gene therapies. A unique, patient-focused design has been implemented to address the challenges of long-term follow-up of patients treated with gene therapy for a rare disease. Strategies to ensure data completeness and patient retention in the registry will help fulfil pharmacovigilance requirements. Collaboration with partners is being sought to expand from a treatment registry into a disease registry. Using practical and cost-efficient approaches, the Strimvelis registry is hoped to encourage further innovation in registry design within orphan drug development.

Keywords

Adenosine deaminase deficiencySevere combined immunodeficiencyGene therapyHaematopoietic stem cell transplantationTransplantationAutologousPharmacovigilance

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