Uniform Scale-Independent Gene Transfer to Striated Muscle After Transvenular Extravasation of Vector | Zendy

Leonard T. Su | Zendy; Kapil Gopal | Zendy; Zhong Lin Wang | Zendy; Xiaoqing Yin | Zendy; Anthony J. Nelson | Zendy; Benjamin W. Kozyak | Zendy; James M. Burkman | Zendy; Marilyn A. Mitchell | Zendy; David W. Low | Zendy; Charles R. Bridges | Zendy; Hansell H. Stedman | Zendy

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Uniform Scale-Independent Gene Transfer to Striated Muscle After Transvenular Extravasation of Vector

Author(s) -

Leonard T. Su,

Kapil Gopal,

Zhong Lin Wang,

Xiaoqing Yin,

Anthony J. Nelson,

Benjamin W. Kozyak,

James M. Burkman,

Marilyn A. Mitchell,

David W. Low,

Charles R. Bridges,

Hansell H. Stedman

Publication year - 2005

Publication title -

circulation

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 7.795

H-Index - 607

eISSN - 1524-4539

pISSN - 0009-7322

DOI - 10.1161/circulationaha.105.534008

Subject(s) - medicine , transduction (biophysics) , genetic enhancement , gene delivery , transgene , myocyte , recombinant dna , gene , pharmacology , biology , genetics , biochemistry

The muscular dystrophies exemplify a class of systemic disorders for which widespread protein replacement in situ is essential for treatment of the underlying genetic disorder. Somatic gene therapy will require efficient, scale-independent transport of DNA-containing macromolecular complexes too large to cross the continuous endothelia under physiological conditions. Previous studies in large-animal models have revealed a trade-off between the efficiency of gene transfer and the inherent safety of the required surgical and pharmacological interventions to achieve this.

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