Gene therapy for haemophilia: a long and winding road

Background: Cure, or improvement of disease phenotype, has been a long‐term goal in the treatment of haemophilia. An obvious strategy for achieving this goal is the use of gene therapy. Objectives: This paper summarises prior and current clinical trials of gene therapy for haemophilia A and B, and b...

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Veröffentlicht in:	Journal of thrombosis and haemostasis 2011-07, Vol.9, p.2-11
1. Verfasser:	HIGH, K. A.
Format:	Artikel
Sprache:	eng
Schlagworte:	AAV Adeno-associated virus Animals factor VIIa gene therapy Genetic Therapy Genetic Vectors haemophilia A haemophilia B Hemophilia A - therapy Humans inhibitors
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container_title	Journal of thrombosis and haemostasis
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creator	HIGH, K. A.
description	Background: Cure, or improvement of disease phenotype, has been a long‐term goal in the treatment of haemophilia. An obvious strategy for achieving this goal is the use of gene therapy. Objectives: This paper summarises prior and current clinical trials of gene therapy for haemophilia A and B, and briefly describes additional strategies in pre‐clinical development. Results and Conclusions: Approximately 50 human subjects with severe haemophilia A or B have been enrolled in seven different trials of gene therapy. These have used plasmids, retroviral, adenoviral, and AAV vectors, directed to autologous fibroblasts, skeletal muscle, liver, and other target cell types accessed by intravenous injection of vector. Four separate trials have used AAV vectors, three of these targeting liver. Data from animal models suggest that several different gene replacement strategies may eventually yield long‐term expression of factor at therapeutic levels, and that in situ correction of gene defects in hepatocytes may eventually be a therapeutic option.
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A.</creator><creatorcontrib>HIGH, K. A.</creatorcontrib><description>Background: Cure, or improvement of disease phenotype, has been a long‐term goal in the treatment of haemophilia. An obvious strategy for achieving this goal is the use of gene therapy. Objectives: This paper summarises prior and current clinical trials of gene therapy for haemophilia A and B, and briefly describes additional strategies in pre‐clinical development. Results and Conclusions: Approximately 50 human subjects with severe haemophilia A or B have been enrolled in seven different trials of gene therapy. These have used plasmids, retroviral, adenoviral, and AAV vectors, directed to autologous fibroblasts, skeletal muscle, liver, and other target cell types accessed by intravenous injection of vector. Four separate trials have used AAV vectors, three of these targeting liver. 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subjects	AAV Adeno-associated virus Animals factor VIIa gene therapy Genetic Therapy Genetic Vectors haemophilia A haemophilia B Hemophilia A - therapy Humans inhibitors
title	Gene therapy for haemophilia: a long and winding road
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