Rénald Gilbert - Academia.edu (original) (raw)

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Papers by Rénald Gilbert

Research paper thumbnail of Inducible Packaging Cells for Large-scale Production of Lentiviral Vectors in Serum-free Suspension Culture

Molecular Therapy, 2008

The user has requested enhancement of the downloaded file. All in-text references underlined in b... more The user has requested enhancement of the downloaded file. All in-text references underlined in blue are linked to publications on ResearchGate, letting you access and read them immediately.

Research paper thumbnail of Optimization of regional intraarterial naked DNA-mediated transgene delivery to skeletal muscles in a large animal model

Molecular Therapy, 2005

Effective gene therapy for muscular dystrophy will likely require intravascular administration. A... more Effective gene therapy for muscular dystrophy will likely require intravascular administration. Although plasmid DNA (pDNA) contained within a large volume and rapidly infused into a major artery can achieve gene transfer within downstream muscles, this is associated with substantial muscle edema. Here we hypothesized that excessive edema-related increases in intramuscular pressure (IM pressure) developed during intraarterial pDNA injections could hinder successful gene delivery. Accordingly, we monitored IM pressure during injection of pDNA carrying a LacZ transgene into the femoral artery of rats and pigs. Large variations in IM pressure were found between different muscles. There was a significant inverse relationship between IM pressure and the subsequent level of gene transfer to muscle. Modification of the injection protocol to reduce IM pressure led to greatly increased pDNA-mediated gene expression and reduced muscle damage in pigs. Under the most optimized conditions, average transfection within eight different muscles of the pig hind limb amounted to 22% of all fibers, attaining a maximum of 60% in the gastrocnemius muscle. We conclude that IM pressure monitoring is a simple and useful procedure, which can be applied in both small and large animals to help optimize pDNA-mediated gene transfer to skeletal muscles by the intraarterial route.

Research paper thumbnail of Inducible Packaging Cells for Large-scale Production of Lentiviral Vectors in Serum-free Suspension Culture

Molecular Therapy, 2008

The user has requested enhancement of the downloaded file. All in-text references underlined in b... more The user has requested enhancement of the downloaded file. All in-text references underlined in blue are linked to publications on ResearchGate, letting you access and read them immediately.

Research paper thumbnail of Optimization of regional intraarterial naked DNA-mediated transgene delivery to skeletal muscles in a large animal model

Molecular Therapy, 2005

Effective gene therapy for muscular dystrophy will likely require intravascular administration. A... more Effective gene therapy for muscular dystrophy will likely require intravascular administration. Although plasmid DNA (pDNA) contained within a large volume and rapidly infused into a major artery can achieve gene transfer within downstream muscles, this is associated with substantial muscle edema. Here we hypothesized that excessive edema-related increases in intramuscular pressure (IM pressure) developed during intraarterial pDNA injections could hinder successful gene delivery. Accordingly, we monitored IM pressure during injection of pDNA carrying a LacZ transgene into the femoral artery of rats and pigs. Large variations in IM pressure were found between different muscles. There was a significant inverse relationship between IM pressure and the subsequent level of gene transfer to muscle. Modification of the injection protocol to reduce IM pressure led to greatly increased pDNA-mediated gene expression and reduced muscle damage in pigs. Under the most optimized conditions, average transfection within eight different muscles of the pig hind limb amounted to 22% of all fibers, attaining a maximum of 60% in the gastrocnemius muscle. We conclude that IM pressure monitoring is a simple and useful procedure, which can be applied in both small and large animals to help optimize pDNA-mediated gene transfer to skeletal muscles by the intraarterial route.

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